Equation-free dynamic renormalization in a glassy compaction model

L. Chen; I.G. Kevrekidis; P.G. Kevrekidis

arXiv:cond-mat/0412773·cond-mat.soft·May 23, 2007

Equation-free dynamic renormalization in a glassy compaction model

L. Chen, I.G. Kevrekidis, P.G. Kevrekidis

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TL;DR

This paper introduces an equation-free dynamic renormalization approach to analyze the self-similar evolution of void distributions in a glassy compaction model, using computational tools to study fixed points and dynamics.

Contribution

It combines dynamic renormalization with equation-free methods to analyze self-similar behaviors in a glassy compaction model, providing new computational insights.

Findings

01

Identification of self-similar evolution in void distribution dynamics

02

Application of fixed point and dynamic approaches in the model

03

Demonstration of forward and backward in time analysis

Abstract

Combining dynamic renormalization with equation-free computational tools, we study the apparently self-similar evolution of void distribution dynamics in the diffusion-deposition problem proposed by Stinchcombe and Depken [Phys. Rev. Lett. 88, 125701 (2002)]. We illustrate fixed point and dynamic approaches, forward as well as backward in time.

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Taxonomy

TopicsTheoretical and Computational Physics · Material Dynamics and Properties · Block Copolymer Self-Assembly