Saved in:
Bibliographic Details
Main Authors: Yuan, Houfei, Wang, Yujie
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2501.13455
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866917900454985728
author Yuan, Houfei
Wang, Yujie
author_facet Yuan, Houfei
Wang, Yujie
contents Granular systems can display reproducible microscopic distributions governed by a few macroscopic parameters, parallel to equilibrium statistical mechanics. Building on this analogy, Edwards' s pioneering framework proposes a volume ensemble of equiprobable jammed states, introducing compactivity chi as an effective temperature. Despite its promise, debates persist regarding the framework' s formulation and validity, with practical implementation often exposing inconsistencies. This study systematically examines different implementations using experimental data from spherical particle packings with varying friction coefficients, subjected to tapping and shearing. Our findings show that the heat capacity and overlapping histogram methods yield consistent Chi values. Discrepancies in other approaches, such as the free volume model, primarily stem from differing reference-state compactivities and microstate definitions, whereas the mean-field theory, which effectively accounts for mechanical stability within a geometric coordination-number phase space, is constrained by its isostatic assumption and inherent approximations. Additionally, an effective temperature Chi_f defined on Delaunay tetrahedra better describes topological excitations, but represents a quasi-equilibrium state, with true equilibrium achieved only under Chi. This study refines and expands our understanding of the Edwards volume ensemble in line with Edwards' s original ideas, highlighting the combined contributions of friction and inherently disordered packing structures.
format Preprint
id arxiv_https___arxiv_org_abs_2501_13455
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Critical evaluations of different implementations of Edwards volume ensemble
Yuan, Houfei
Wang, Yujie
Soft Condensed Matter
Statistical Mechanics
Granular systems can display reproducible microscopic distributions governed by a few macroscopic parameters, parallel to equilibrium statistical mechanics. Building on this analogy, Edwards' s pioneering framework proposes a volume ensemble of equiprobable jammed states, introducing compactivity chi as an effective temperature. Despite its promise, debates persist regarding the framework' s formulation and validity, with practical implementation often exposing inconsistencies. This study systematically examines different implementations using experimental data from spherical particle packings with varying friction coefficients, subjected to tapping and shearing. Our findings show that the heat capacity and overlapping histogram methods yield consistent Chi values. Discrepancies in other approaches, such as the free volume model, primarily stem from differing reference-state compactivities and microstate definitions, whereas the mean-field theory, which effectively accounts for mechanical stability within a geometric coordination-number phase space, is constrained by its isostatic assumption and inherent approximations. Additionally, an effective temperature Chi_f defined on Delaunay tetrahedra better describes topological excitations, but represents a quasi-equilibrium state, with true equilibrium achieved only under Chi. This study refines and expands our understanding of the Edwards volume ensemble in line with Edwards' s original ideas, highlighting the combined contributions of friction and inherently disordered packing structures.
title Critical evaluations of different implementations of Edwards volume ensemble
topic Soft Condensed Matter
Statistical Mechanics
url https://arxiv.org/abs/2501.13455