Adaiabtic theorems and reversible isothermal processes

D. Ruelle; D. Ruelle; D.W. Robinson; J. Fröhlich; J. Fröhlich; J. Fröhlich; J. Fröhlich; J.E. Avron; K. Yosida; M. Merkli; M. Reed; O. Bratelli; R. Haag; S. Teufel; V. Bach; V. Jaksić; V. Jaksić; V. Jaksić

research

Adaiabtic theorems and reversible isothermal processes

Authors: D. Ruelle
D. Ruelle
D.W. Robinson
J. Fröhlich
J. Fröhlich
J. Fröhlich
J. Fröhlich
J.E. Avron
K. Yosida
M. Merkli
M. Reed
O. Bratelli
R. Haag
S. Teufel
V. Bach
V. Jaksić
V. Jaksić
V. Jaksić
Publication date: 1 January 2005
Publisher: 'Springer Science and Business Media LLC'
Doi

Abstract

Isothermal processes of a finitely extended, driven quantum system in contact with an infinite heat bath are studied from the point of view of quantum statistical mechanics. Notions like heat flux, work and entropy are defined for trajectories of states close to, but distinct from states of joint thermal equilibrium. A theorem characterizing reversible isothermal processes as quasi-static processes (''isothermal theorem'') is described. Corollaries concerning the changes of entropy and free energy in reversible isothermal processes and on the 0th law of thermodynamics are outlined

Similar works

Full text

Available Versions

Repository for Publications and Research Data

oai:www.research-collection.et...

Last time updated on 20/07/2020

Crossref

Last time updated on 03/12/2019