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Main Authors: Lam, Leo S. I., Deng, Hai-Yao, Zhang, Wei-Bing, Nwankwo, Udoka, Xiao, Chu, Yip, Cho-Tung, Lee, Chun-Shing, Ruan, Haihui, Lam, Chi-Hang
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2412.08986
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author Lam, Leo S. I.
Deng, Hai-Yao
Zhang, Wei-Bing
Nwankwo, Udoka
Xiao, Chu
Yip, Cho-Tung
Lee, Chun-Shing
Ruan, Haihui
Lam, Chi-Hang
author_facet Lam, Leo S. I.
Deng, Hai-Yao
Zhang, Wei-Bing
Nwankwo, Udoka
Xiao, Chu
Yip, Cho-Tung
Lee, Chun-Shing
Ruan, Haihui
Lam, Chi-Hang
contents The physics of glass has been a significant topic of interest for decades. Dynamical facilitation is widely believed to be an important characteristic of glassy dynamics, but the precise mechanism is still under debate. We propose a lattice model of glass called the facilitated random walk (FRW). Each particle performs continuous time random walk in the presence of its own random local kinetic constraints. The particles do not interact energetically. Instead, they interact kinetically with a hopping rate resampling rule under which motions of a particle can randomly perturb the local kinetic constraints of other particles. This dynamic interaction is reversible, following a rate restoration rule. A step-by-step reversal of the particle motions exactly restore the previous constraints, modeling randomness quenched in the configuration space of glass. The model exhibits stretched exponential relaxation and dynamical heterogeneity typical of glasses. Despite the lack of explicit facilitation rule, the FRW shows facilitation behaviors closely analogous to those of the kinetically constrained models (KCM). The FRW is a coarse-grained version of the distinguishable particle lattice model (DPLM) and this exemplifies that compatible defect and atomistic models can complement each other on the study of glass.
format Preprint
id arxiv_https___arxiv_org_abs_2412_08986
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Emergent facilitation by random constraints in a facilitated random walk model of glass
Lam, Leo S. I.
Deng, Hai-Yao
Zhang, Wei-Bing
Nwankwo, Udoka
Xiao, Chu
Yip, Cho-Tung
Lee, Chun-Shing
Ruan, Haihui
Lam, Chi-Hang
Statistical Mechanics
The physics of glass has been a significant topic of interest for decades. Dynamical facilitation is widely believed to be an important characteristic of glassy dynamics, but the precise mechanism is still under debate. We propose a lattice model of glass called the facilitated random walk (FRW). Each particle performs continuous time random walk in the presence of its own random local kinetic constraints. The particles do not interact energetically. Instead, they interact kinetically with a hopping rate resampling rule under which motions of a particle can randomly perturb the local kinetic constraints of other particles. This dynamic interaction is reversible, following a rate restoration rule. A step-by-step reversal of the particle motions exactly restore the previous constraints, modeling randomness quenched in the configuration space of glass. The model exhibits stretched exponential relaxation and dynamical heterogeneity typical of glasses. Despite the lack of explicit facilitation rule, the FRW shows facilitation behaviors closely analogous to those of the kinetically constrained models (KCM). The FRW is a coarse-grained version of the distinguishable particle lattice model (DPLM) and this exemplifies that compatible defect and atomistic models can complement each other on the study of glass.
title Emergent facilitation by random constraints in a facilitated random walk model of glass
topic Statistical Mechanics
url https://arxiv.org/abs/2412.08986