Monte Carlo simulations of the classical two-dimensional discrete frustrated φ 4 model
Abstract
The classical two-dimensional discrete frustrated φ 4 model is studied by Monte Carlo simulations. The correlation function is obtained for two values of a parameter d that determines the frustration in the model. The ground state is a ferro-phase for d=-0.35 and a commensurate phase with period N=6 for d=-0.45. Mean field predicts that at higher temperature the system enters a para-phase via an incommensurate state, in both cases. Monte Carlo data for d=-0.45 show two phase transitions with a floating-incommensurate phase between them. The phase transition at higher temperature is of the Kosterlitz-Thouless type. Analysis of the data for d=-0.35 shows only a single phase transition between the floating-fluid phase and the ferro-phase within the numerical error.
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