Non-KPZ modes in two-species driven diffusive systems

Abstract

Using mode coupling theory and dynamical Monte-Carlo simulations we investigate the scaling behaviour of the dynamical structure function of a two-species asymmetric simple exclusion process, consisting of two coupled single-lane asymmetric simple exclusion processes. We demonstrate the appearence of a superdiffusive mode with dynamical exponent z=5/3 in the density fluctuations, along with a KPZ mode with z=3/2 and argue that this phenomenon is generic for short-ranged driven diffusive systems with more than one conserved density. When the dynamics is symmetric under the interchange of the two lanes a diffusive mode with z=2 appears instead of the non-KPZ superdiffusive mode.