Off-Equilibrium Dynamics in Finite-Dimensional Spin Glass Models
摘要
The low temperature dynamics of the two- and three-dimensional Ising spin glass model with Gaussian couplings is investigated via extensive Monte Carlo simulations. We find an algebraic decay of the remanent magnetization. For the autocorrelation function a typical aging scenario with a scaling is established. Investigating spatial correlations we find an algebraic growth law of the average domain size. The spatial correlation function scales with . The sensitivity of the correlations in the spin glass phase with respect to temperature changes is examined by calculating a time dependent overlap length. In the two dimensional model we examine domain growth with a new method: First we determine the exact ground states of the various samples (of system sizes up to ) and then we calculate the correlations between this state and the states generated during a Monte Carlo simulation.
引用
@article{arxiv.cond-mat/9507046,
title = {Off-Equilibrium Dynamics in Finite-Dimensional Spin Glass Models},
author = {J. Kisker and L. Santen and M. Schreckenberg and H. Rieger},
journal= {arXiv preprint arXiv:cond-mat/9507046},
year = {2009}
}
备注
38 pages, RevTeX, 14 postscript figures