The condensation of non-growing complex networks in Boltzmann limit

The condensation of non-growing complex networks in Boltzmann limit

We first discuss some different condensation phenomenon in complex networks.Then we analyze the critical phenomenon of the non-growing Bianconi-Barabsi (B-B) fitness model with fixed number of nodes and links.The analytical studies show that this model displays a condensate-non-condensate phase tran...

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Bibliographic Details
Main Authors: SU Guifeng, LI Xiaowen, ZHANG Yi
Format: Article
Language:English
Published: Academic Journals Center of Shanghai Normal University 2015-10-01
Series:Journal of Shanghai Normal University (Natural Sciences)
Subjects:
complex network
fitness model
condensation
Boltzmann limit
Online Access:http://qktg.shnu.edu.cn/zrb/shsfqkszrb/ch/reader/create_pdf.aspx?file_no=201505009&flag=1&year_id=2015&quarter_id=5
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spelling doaj-c6674f4435934405b0d75c745853c8902020-11-24T23:27:10ZengAcademic Journals Center of Shanghai Normal UniversityJournal of Shanghai Normal University (Natural Sciences)1000-51371000-51372015-10-0144551151710.3969/J.ISSN.1000-5137.2015.05.009201505009The condensation of non-growing complex networks in Boltzmann limitSU Guifeng0LI Xiaowen1ZHANG Yi2College of Mathematics and Sciences,Shanghai Normal UniversityCollege of Mathematics and Sciences,Shanghai Normal UniversityCollege of Mathematics and Sciences,Shanghai Normal UniversityWe first discuss some different condensation phenomenon in complex networks.Then we analyze the critical phenomenon of the non-growing Bianconi-Barabsi (B-B) fitness model with fixed number of nodes and links.The analytical studies show that this model displays a condensate-non-condensate phase transition.We numerically simulate its critical behavior in the Boltzmann limit,and find that the non-condensation phase is significantly different from that of the growing B-B model.The corresponding critical temperature <i>T<sub>c</sub></i> and degree distribution <i>P</i>(<i>k</i>) are identified.http://qktg.shnu.edu.cn/zrb/shsfqkszrb/ch/reader/create_pdf.aspx?file_no=201505009&flag=1&year_id=2015&quarter_id=5complex networkfitness modelcondensationBoltzmann limit
collection DOAJ
language English
format Article
sources DOAJ
author SU Guifeng
LI Xiaowen
ZHANG Yi
spellingShingle SU Guifeng
LI Xiaowen
ZHANG Yi
The condensation of non-growing complex networks in Boltzmann limit
Journal of Shanghai Normal University (Natural Sciences)
complex network
fitness model
condensation
Boltzmann limit
author_facet SU Guifeng
LI Xiaowen
ZHANG Yi
author_sort SU Guifeng
title The condensation of non-growing complex networks in Boltzmann limit
title_short The condensation of non-growing complex networks in Boltzmann limit
title_full The condensation of non-growing complex networks in Boltzmann limit
title_fullStr The condensation of non-growing complex networks in Boltzmann limit
title_full_unstemmed The condensation of non-growing complex networks in Boltzmann limit
title_sort condensation of non-growing complex networks in boltzmann limit
publisher Academic Journals Center of Shanghai Normal University
series Journal of Shanghai Normal University (Natural Sciences)
issn 1000-5137
1000-5137
publishDate 2015-10-01
description We first discuss some different condensation phenomenon in complex networks.Then we analyze the critical phenomenon of the non-growing Bianconi-Barabsi (B-B) fitness model with fixed number of nodes and links.The analytical studies show that this model displays a condensate-non-condensate phase transition.We numerically simulate its critical behavior in the Boltzmann limit,and find that the non-condensation phase is significantly different from that of the growing B-B model.The corresponding critical temperature <i>T<sub>c</sub></i> and degree distribution <i>P</i>(<i>k</i>) are identified.
topic complex network
fitness model
condensation
Boltzmann limit
url http://qktg.shnu.edu.cn/zrb/shsfqkszrb/ch/reader/create_pdf.aspx?file_no=201505009&flag=1&year_id=2015&quarter_id=5
work_keys_str_mv AT suguifeng thecondensationofnongrowingcomplexnetworksinboltzmannlimit
AT lixiaowen thecondensationofnongrowingcomplexnetworksinboltzmannlimit
AT zhangyi thecondensationofnongrowingcomplexnetworksinboltzmannlimit
AT suguifeng condensationofnongrowingcomplexnetworksinboltzmannlimit
AT lixiaowen condensationofnongrowingcomplexnetworksinboltzmannlimit
AT zhangyi condensationofnongrowingcomplexnetworksinboltzmannlimit
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