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 of a microscopic model 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 meanfield predictions with the finite-dimensional simulations, we identify robust aspects of the theory and uncover its more sensitive features. We conclude with a brief overview of ongoing research.
Glass and Jamming Transitions: From Exact Results to Finite-Dimensional Descriptions / Charbonneau, P.; Kurchan, J.; Parisi, Giorgio; Urbani, Pierfrancesco; Zamponi, Francesco. - In: ANNUAL REVIEW OF CONDENSED MATTER PHYSICS. - ISSN 1947-5454. - 8:(2017), pp. 265-288. [10.1146/annurev-conmatphys-031016-025334]
Glass and Jamming Transitions: From Exact Results to Finite-Dimensional Descriptions
PARISI, Giorgio;URBANI, PIERFRANCESCO;ZAMPONI, Francesco
2017
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 of a microscopic model 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 meanfield predictions with the finite-dimensional simulations, we identify robust aspects of the theory and uncover its more sensitive features. We conclude with a brief overview of ongoing research.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
