Glass and Jamming Transitions: From Exact Results to Finite-Dimensional Descriptions

P. Charbonneau, J. Kurchan, G. Parisi, P. Urbani, F. Zamponi
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引用次数: 244

Abstract

Despite decades of work, gaining a first-principle understanding of amorphous materials remains an extremely challenging problem. However, recent theoretical breakthroughs have led to the formulation of an exact solution in the mean-field limit of infinite spatial dimension, and numerical simulations have remarkably confirmed the dimensional robustness of some of the predictions. This review describes these latest advances. More specifically, we consider the dynamical and thermodynamic descriptions of hard spheres around the dynamical, Gardner and jamming transitions. Comparing mean-field predictions with the finite-dimensional simulations, we identify robust aspects of the description and uncover its more sensitive features. We conclude with a brief overview of ongoing research.
玻璃和干扰过渡:从精确结果到有限维描述
尽管几十年的工作,获得非晶材料的第一原理的理解仍然是一个极具挑战性的问题。然而,最近的理论突破已经导致了无限空间维度平均场极限的精确解的表述,并且数值模拟已经显著地证实了一些预测的维度鲁棒性。本文综述了这些最新进展。更具体地说,我们考虑了围绕动力学,加德纳和干扰转变的硬球的动力学和热力学描述。将平均场预测与有限维模拟进行比较,我们确定了描述的鲁棒性方面并揭示了其更敏感的特征。最后,我们对正在进行的研究进行简要概述。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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