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Approximate thermodynamic structure for driven lattice gases in contact

Punyabrata Pradhan, Robert Ramsperger, and Udo Seifert
Phys. Rev. E 84, 041104 – Published 6 October 2011
Physics logo See Synopsis: Touching Gases Settle Down

Abstract

For a class of nonequilibrium systems, called driven lattice gases, we study what happens when two systems are kept in contact and allowed to exchange particles with the total number of particles conserved. For both attractive and repulsive nearest-neighbor interactions among particles and for a wide range of parameter values, we find that, to a good approximation, one could define an intensive thermodynamic variable, such as the equilibrium chemical potential, that determines the final steady state for two initially separated driven lattice gases brought into contact. However, due to nontrivial contact dynamics, there are also observable deviations from this simple thermodynamic law. To illustrate the role of the contact dynamics, we study a variant of the zero-range process and discuss how the deviations could be explained by a modified large-deviation principle. We identify an additional contribution to the large-deviation function, which we call the excess chemical potential, for the variant of the zero-range process as well as the driven lattice gases. The excess chemical potential depends on the specifics of the contact dynamics and is in general a priori unknown. A contact dependence implies that, even though an intensive variable may equalize, the zeroth law could still be violated.

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  • Received 4 July 2011

DOI:https://doi.org/10.1103/PhysRevE.84.041104

©2011 American Physical Society

Synopsis

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Touching Gases Settle Down

Published 6 October 2011

Under certain constraints, two lattice gases equilibrate when brought into contact.

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Authors & Affiliations

Punyabrata Pradhan, Robert Ramsperger, and Udo Seifert

  • II. Institut für Theoretische Physik, Universität Stuttgart, Stuttgart D-70550, Germany

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Issue

Vol. 84, Iss. 4 — October 2011

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