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Main Authors: Saito, Takuya, Sumino, Yutaka
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2312.03983
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author Saito, Takuya
Sumino, Yutaka
author_facet Saito, Takuya
Sumino, Yutaka
contents This article investigates spatiotemporally discrete or continuous stochastic descriptions, where we focus on differences in heat naturally defined between the particle level and the density field. Both the descriptions are found to generally make the heat differences by the entropic term expressed just with the number density through spatial projection from the many particles' positions onto the density field. The transformation from the Langevin to Dean--Kawasaki equations is considered as the projection in the continuous descriptions, where the emergent heat differences undergo little temporal variations due to the sparse distributions of the point-particles. On the other hand, the analogous formalisms constructed in the discrete models may exhibit the explicit temporal evolutions of the entropic term. Furthermore, we develop arguments about the interpretation and applicability of the heat differences as well as the perspectives to many-polymer system.
format Preprint
id arxiv_https___arxiv_org_abs_2312_03983
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Stochastic heat differences between many-particle and density field descriptions
Saito, Takuya
Sumino, Yutaka
Statistical Mechanics
Soft Condensed Matter
This article investigates spatiotemporally discrete or continuous stochastic descriptions, where we focus on differences in heat naturally defined between the particle level and the density field. Both the descriptions are found to generally make the heat differences by the entropic term expressed just with the number density through spatial projection from the many particles' positions onto the density field. The transformation from the Langevin to Dean--Kawasaki equations is considered as the projection in the continuous descriptions, where the emergent heat differences undergo little temporal variations due to the sparse distributions of the point-particles. On the other hand, the analogous formalisms constructed in the discrete models may exhibit the explicit temporal evolutions of the entropic term. Furthermore, we develop arguments about the interpretation and applicability of the heat differences as well as the perspectives to many-polymer system.
title Stochastic heat differences between many-particle and density field descriptions
topic Statistical Mechanics
Soft Condensed Matter
url https://arxiv.org/abs/2312.03983