Non-equilibrium Phase-Ordering with a Global Conservation Law
Abstract
In all dimensions, infinite-range Kawasaki spin exchange in a quenched Ising model leads to an asymptotic length-scale L ( t)1/2 t1/3 at T=0 because the kinetic coefficient is renormalized by the broken-bond density, L-1. For T>0, activated kinetics recovers the standard asymptotic growth-law, L t1/2. However, at all temperatures, infinite-range energy-transport is allowed by the spin-exchange dynamics. A better implementation of global conservation, the microcanonical Creutz algorithm, is well behaved and exhibits the standard non-conserved growth law, L t1/2, at all temperatures.
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