Correlations in Ising chains with non-integrable interactions
Abstract
Two-spin correlations generated by interactions which decay with distance r as r-1-sigma with -1 <sigma <0 are calculated for periodic Ising chains of length L. Mean-field theory indicates that the correlations, C(r,L), diminish in the thermodynamic limit L -> ∞, but they contain a singular structure for r/L -> 0 which can be observed by introducing magnified correlations, LC(r,L)-Σr C(r,L). The magnified correlations are shown to have a scaling form F(r/L) and the singular structure of F(x) for x->0 is found to be the same at all temperatures including the critical point. These conclusions are supported by the results of Monte Carlo simulations for systems with sigma =-0.50 and -0.25 both at the critical temperature T=Tc and at T=2Tc.
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