relative entropy, interaction energy and the nature of dissipation

;Bernard Gaveau;Léo Granger;Michel Moreau;Lawrence S. Schulman

doi:10.3390/e16063173

relative entropy, interaction energy and the nature of dissipation

Clicks: 95

ID: 188579

2014

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Abstract

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Many thermodynamic relations involve inequalities, with equality if a process does not involve dissipation. In this article we provide equalities in which the dissipative contribution is shown to involve the relative entropy (a.k.a. Kullback-Leibler divergence). The processes considered are general time evolutions both in classical and quantum mechanics, and the initial state is sometimes thermal, sometimes partially so. By calculating a transport coefficient we show that indeed—at least in this case—the source of dissipation in that coefficient is the relative entropy.

Reference Key	gaveau2014entropyrelative Use this key to autocite in the manuscript while using SciMatic Manuscript Manager or Thesis Manager
Authors	;Bernard Gaveau;Léo Granger;Michel Moreau;Lawrence S. Schulman
Journal	European journal of medicinal chemistry
Year	2014
DOI	10.3390/e16063173 Searching for DOI...
URL	http://www.mdpi.com/1099-4300/16/6/3173 https://doi.org/10.3390/e16063173
Keywords	dissipation

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