Reshuffling spins with short range interactions: When sociophysics produces physical results
Abstract
Galam reshuffling introduced in opinion dynamics models is investigated under the nearest neighbor Ising model on a square lattice using Monte Carlo simulations. While the corresponding Galam analytical critical temperature TC ≈ 3.09 [J/kB] is recovered almost exactly, it is proved to be different from both values, not reshuffled (TC=2/arcsinh(1) ≈ 2.27 [J/kB]) and mean-field (TC=4 [J/kB]). On this basis, gradual reshuffling is studied as function of 0 ≤ p ≤ 1 where p measures the probability of spin reshuffling after each Monte Carlo step. The variation of TC as function of p is obtained and exhibits a non-linear behavior. The simplest Solomon network realization is noted to reproduce Galam p=1 result. Similarly to the critical temperature, critical exponents are found to differ from both, the classical Ising case and the mean-field values.
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