Roughening of two-dimensional interfaces in nonequilibrium phase-separated systems

Abstract

I show that non-equilibrium two-dimensional interfaces between three dimensional phase separated fluids exhibit a peculiar "sub-logarithmic" roughness. Specifically, an interface of lateral extent L will fluctuate vertically (i.e., normal to the mean surface orientation) a typical RMS distance w |h(,t)|2 [(L/a)]1/3 (where a is a microscopic length, and h(,t) is the height of the interface at two dimensional position at time t). In contrast, the roughness of equilibrium two-dimensional interfaces between three dimensional fluids, obeys w [(L/a)]1/2. The exponent 1/3 for the active case is exact. In addition, the characteristic time scales τ(L) in the active case scale according to τ(L) L3 [(L/a)]1/3, in contrast to the simple τ(L) L3 scaling found in equilibrium systems with conserved densities and no fluid flow.

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