Fluctuation dissipation ratio in the one dimensional kinetic Ising model
Abstract
The exact relation between the response function R(t,t) and the two time correlation function C(t,t) is derived analytically in the one dimensional kinetic Ising model subjected to a temperature quench. The fluctuation dissipation ratio X(t,t) is found to depend on time through C(t,t) in the time region where scaling C(t,t) = f(t/t) holds. The crossover from the nontrivial form X(C(t,t)) to X(t,t) 1 takes place as the waiting time tw is increased from below to above the equilibration time teq.
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