C. Maes
Published 2001-06-22, updated 2001-07-09Version 2
It is argued that a Gibbsian formula for the space-time distribution of microscopic trajectories of a nonequilibrium system provides a unifying framework for recent results on the fluctuations of the entropy production. The variable entropy production is naturally expressed as the time-reversal symmetry breaking part of the space-time action functional. Its mean is always positive. This is both supported by a Boltzmann type analysis by counting the change in phase space extension corresponding to the macrostate as by various examples of nonequilibrium models. As the Gibbsian set-up allows for non-Markovian dynamics, we also get a local fluctuation theorem for the entropy production in globally Markovian models. In order to study the response of the system to perturbations, we can apply the standard Gibbs formalism.
Comments: Corrected typos and some minor additional comments
Fluctuations of entropy production in turbulent thermal convection
Fluctuation-Dissipation theorems and entropy production in relaxational systems
Entropy Production gives rise to Upper- and Lower-Bounds to Efficiency and COP of Cycles
