I Santamaría-Holek, A. Pérez-Madrid
Published 2011-06-29Version 1
We calculate the nonequilibrium mean-field 'temperature' of a Brownian system in contact with a heat bath. We consider two different cases: an equilibrium bath in the presence of strong external forces and a nonequilibrium bath. By proving the existence of a generalized fluctuation-dissipation relation this mean-field 'temperature' can be used to describe a nonequilibrium system as is if it were in thermal equilibrium with a thermal bath at the mean-field 'temperature' mentioned above. We apply our results to chemical reactions in the presence of external forces showing how chemical equilibrium and Kramers rate constants are modified by the presence of these forces.
Comments: 15pgs/2figs. Accepted for publication in The Journal of Physical Chemistry B, june 28, 2011
Recent theories of glasses as out of equilibrium systems
Energy transport between heat baths with oscillating temperatures
Negative differential thermal resistance of fluids induced by heat baths
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