Competition between dynamic and thermal relaxation in non-equilibrium spin systems above the critical point
Abstract
We study the long-time behaviour and the spatial correlations of a simple ferromagnetic spin system whose kinetics is governed by a thermal bath with a time-dependent temperature which is characterized by a given external relaxation time tau. Exact results are obtained in the framework of the spherical model in d dimensions. In the paramagnetic phase, the long-time kinetics is shown to depend crucially on the ratio between tau and the internal equilibration time taueq. If tau is less than taueq, the model relaxes rapidly towards an equilibrium state but there appear transient and spatially oscillating contributions in the spin-spin correlation function. On the other hand, if tau is much greater than taueq the system is clamped and its time evolution is delayed with respect to the one of the heat bath. For waiting times s such that tau << s << taueq, a quasi-stationary state is found where the fluctuation-dissipation theorem does not hold.
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