Application of the Gallavotti-Cohen fluctuation relation to thermostated steady states near equilibrium
Date
2005-05-27
Authors
Evans, Denis
Searles, Debra J
Rondoni, Lamberto
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American Physical Society
Abstract
The fluctuation relation of the Gallavotti-Cohen fluctuation theorem sGCFTd concerns fluctuations in the
phase-space compression rate of dissipative, reversible dynamical systems. It has been proven for Anosov
systems, but it is expected to apply more generally. This raises the question of which non-Anosov systems
satisfy the fluctuation relation. We analyze time-dependent fluctuations in the phase space compression rate of
a class of N-particle systems that are at equilibrium or in near equilibrium steady states. This class does not
include Anosov systems or isoenergetic systems; however, it includes most steady-state systems considered in
molecular-dynamics simulations of realistic systems. We argue that the fluctuations of the phase-space compression
rate of these systems at or near equilibrium do not satisfy the fluctuation relation of the GCFT,
although the discrepancies become somewhat smaller as the systems move further from equilibrium. In contrast,
similar fluctuation relations for an appropriately defined dissipation function appear to hold both near and
far from equilibrium.
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Keywords
Keywords: Gallavotti-Cohen fluctuation; Non-Anosov systems; Phase-space compression rate; Steady-state systems; Computer simulation; Energy dissipation; Molecular dynamics; Theorem proving; Thermostats
Citation
Physical Review, E, Statistical, Nonlinear and Soft Matter Physics 71.5 (2005): 056120/1-12
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Physical Review E-Statistical, Nonlinear and Soft Matter Physics
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Journal article
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