Growing spatial correlations of particle displacements in a simulated
  liquid on cooling toward the glass transition

A. Onuki; A. van Blaaderen; B. Jerome; C. Donati; Claudio Donati; D. Perera; H. E. Stanley; J. P. Hansen; M. Arndt; M. D. Ediger; M. Fuchs; M. T. Cicerone; P. Ray; Peter H. Poole; R. Ahluwalia; R. L. Leheny; R. Mountain; S. C. Glotzer; S. C. Glotzer; Sharon C. Glotzer; W. Götze; W. Götze; W. Kob; W. Kob; W. Kob; W. Kob; Y. Hiwatari

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Growing spatial correlations of particle displacements in a simulated liquid on cooling toward the glass transition

Authors: A. Onuki
A. van Blaaderen
B. Jerome
C. Donati
Claudio Donati
D. Perera
H. E. Stanley
J. P. Hansen
M. Arndt
M. D. Ediger
M. Fuchs
M. T. Cicerone
P. Ray
Peter H. Poole
R. Ahluwalia
R. L. Leheny
R. Mountain
S. C. Glotzer
S. C. Glotzer
Sharon C. Glotzer
W. Götze
W. Götze
W. Kob
W. Kob
W. Kob
W. Kob
Y. Hiwatari
Publication date: 11 November 1998
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We define a correlation function that quantifies the spatial correlation of single-particle displacements in liquids and amorphous materials. We show for an equilibrium liquid that this function is related to fluctuations in a bulk dynamical variable. We evaluate this function using computer simulations of an equilibrium glass-forming liquid, and show that long range spatial correlations of displacements emerge and grow on cooling toward the mode coupling critical temperature

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