Persistence in Ferromagnetic Ordering: Dependence upon initial configuration

Abstract

We study the dynamics of ordering in ferromagnets via Monte Carlo simulations of the Ising model, employing the Glauber spin-flip mechanism, in space dimensions d=2 and 3. Results for the persistence probability and the domain growth are discussed for quenches to various temperatures (Tf) below the critical one (Tc), from different initial temperatures Ti ≥ Tc. In long time limit, for Ti > Tc, the persistence probability exhibits power-law decay with exponents θ 0.22 and 0.18 in d=2 and 3, respectively. For finite Ti, the early time behavior is a different power-law whose life-time diverges and exponent decreases as Ti → Tc. The crossover length between the two steps diverges as the equilibrium correlation length. Ti=Tc is expected to provide a new universality class for which we obtain θ 0.035 in d=2 and 0.10 in d=3. The time dependence of the average domain size , however, is observed to be rather insensitive to the choice of Ti.