High-temperature expansion for steady nonequilibrium states in driven lattice gases

Abstract

We develop a controlled high-temperature expansion for nonequilibrium steady states of the driven lattice gas. We represent the steady state as P(η) e-H(η)-Ψ(η), and evaluate the lowest order contribution to the nonequilibrium effective interaction Ψ(η). We see that, in dimensions d2, all models with nonsingular transition rates have the same Ψ(η), which consists of a three-body effective interaction decaying like 1/r2d+1. The models with the Metropolis rule show exceptional behavior.

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