Partially Asymmetric Exclusion Processes with Sitewise Disorder

Abstract

We study the stationary properties as well as the non-stationary dynamics of the one-dimensional partially asymmetric exclusion process with position dependent random hop rates. In a finite system of L sites the stationary current, J, is determined by the largest barrier and the corresponding waiting time, τ J-1, is related to the waiting time of a single random walker, τrw, as τ τrw1/2. The current is found to vanish as: J L-z/2, where z is the dynamical exponent of the biased single particle Sinai walk. Typical stationary states are phase separated: At the largest barrier almost all particles queue at one side and almost all holes are at the other side. The high-density (low-density) region, is divided into L1/2 connected parts of particles (holes) which are separated by islands of holes (particles) located at the subleading barriers (valleys). We also study non-stationary processes of the system, like coarsening and invasion. Finally we discuss some related models, where particles of larger size or multiple occupation of lattice sites is considered.

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