Non-universality of aging during phase separation of the two-dimensional long-range Ising model

Abstract

We investigate the aging properties of phase-separation kinetics following quenches from T=∞ to a finite temperature below Tc of the paradigmatic two-dimensional conserved Ising model with power-law decaying long-range interactions r-(2 + σ). Physical aging with a power-law decay of the two-time autocorrelation function C(t,tw) (t/tw)-λ/z is observed, displaying a complex dependence of the autocorrelation exponent λ on σ. A value of λ=3.500(26) for the corresponding nearest-neighbor model (which is recovered as the σ → ∞ limes) is determined. The values of λ in the long-range regime (σ < 1) are all compatible with λ ≈ 4. In between, a continuous crossover is visible for 1 σ 2 with non-universal, σ-dependent values of λ. The performed Metropolis Monte Carlo simulations are primarily enabled by our novel algorithm for long-range interacting systems.