Entropy and temperature of a static granular assembly: An ab initio approach

Silke Henkes; Corey S. O'Hern; Bulbul Chakraborty

doi:10.1103/PhysRevLett.99.038002

Entropy and temperature of a static granular assembly: An ab initio approach

Silke Henkes, Corey S. O'Hern, Bulbul Chakraborty

Mathematical Science

Research output: Contribution to journal › Article › peer-review

114 Citations (Scopus)

Abstract

We construct a statistical framework for static assemblies of deformable grains which parallels that of equilibrium statistical mechanics but with a conservation principle based on the mechanical stress tensor. We define a state function that has all the attributes of entropy. In particular, maximizing this function leads to a well-defined granular temperature and the equivalent of the Boltzman distribution for ensembles of grain packings. Predictions of the ensemble are verified against simulated packings of frictionless, deformable disks.

Original language	English
Article number	038002
Number of pages	4
Journal	Physical Review Letters
Volume	99
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevLett.99.038002
Publication status	Published - 20 Jul 2007

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abstract = "We construct a statistical framework for static assemblies of deformable grains which parallels that of equilibrium statistical mechanics but with a conservation principle based on the mechanical stress tensor. We define a state function that has all the attributes of entropy. In particular, maximizing this function leads to a well-defined granular temperature and the equivalent of the Boltzman distribution for ensembles of grain packings. Predictions of the ensemble are verified against simulated packings of frictionless, deformable disks.",

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AB - We construct a statistical framework for static assemblies of deformable grains which parallels that of equilibrium statistical mechanics but with a conservation principle based on the mechanical stress tensor. We define a state function that has all the attributes of entropy. In particular, maximizing this function leads to a well-defined granular temperature and the equivalent of the Boltzman distribution for ensembles of grain packings. Predictions of the ensemble are verified against simulated packings of frictionless, deformable disks.

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JO - Physical Review Letters

JF - Physical Review Letters

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Entropy and temperature of a static granular assembly: An ab initio approach

Abstract

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