Exclusion process for particles of arbitrary extension: Hydrodynamic limit and algebraic properties

Abstract

The behaviour of extended particles with exclusion interaction on a one-dimensional lattice is investigated. The basic model is called -ASEP as a generalization of the asymmetric exclusion process (ASEP) to particles of arbitrary length . Stationary and dynamical properties of the -ASEP with periodic boundary conditions are derived in the hydrodynamic limit from microscopic properties of the underlying stochastic many-body system. In particular, the hydrodynamic equation for the local density evolution and the time-dependent diffusion constant of a tracer particle are calculated. As a fundamental algebraic property of the symmetric exclusion process (SEP) the SU(2)-symmetry is generalized to the case of extended particles.

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