Violation of the Fluctuation-Dissipation Theorem in a Two-Dimensional Ising Model with Dipolar Interactions
Abstract
The violation of the Fluctuation-Dissipation Theorem (FDT) in a two-dimensional Ising model with both ferromagnetic exchange and antiferromagnetic dipolar interactions is established and investigated via Monte Carlo simulations. Through the computation of the autocorrelation C(t+tw,tw) and the integrated response (susceptibility) functions we obtain the FDT violation factor X(t+tw,tw) for different values of the temperature, the waiting time tw and the quotient delta=J0/Jd, J0 and Jd being the strength of exchange and dipolar interactions respectively. For positive values of delta this system develops a striped phase at low temperatures, in which the non-equilibrium dynamics presents two different regimes. Our results show that such different regimes are not reflected in the FDT violation factor, where X goes always to zero for high values of tw in the aging regime, a result that appears in domain growth processes in non-frustrated ordered systems.
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