English

Non-equilibrium Phase-Ordering with a Global Conservation Law

Condensed Matter 2009-10-28 v1

Abstract

In all dimensions, infinite-range Kawasaki spin exchange in a quenched Ising model leads to an asymptotic length-scale L(ρt)1/2t1/3L \sim (\rho t)^{1/2} \sim t^{1/3} at T=0T=0 because the kinetic coefficient is renormalized by the broken-bond density, ρL1\rho \sim L^{-1}. For T>0T>0, activated kinetics recovers the standard asymptotic growth-law, Lt1/2L \sim t^{1/2}. 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, Lt1/2L \sim t^{1/2}, at all temperatures.

Keywords

Cite

@article{arxiv.cond-mat/9603070,
  title  = {Non-equilibrium Phase-Ordering with a Global Conservation Law},
  author = {A. D. Rutenberg},
  journal= {arXiv preprint arXiv:cond-mat/9603070},
  year   = {2009}
}

Comments

2 pages and 2 figures, uses epsf.sty