Monte Carlo study of the critical behavior of random bond Potts models

Abstract

We present results of Monte Carlo simulations of random bond Potts models in two dimensions, for different numbers of Potts states q. We introduce a simple scheme which yields continuous self-dual distributions of the interactions. As expected, we find multifractal behavior of the correlation functions at the critical point and obtain estimates of the exponent ${\eta }_n$ for several moments n of the correlation functions, including typical $\left(\overrightarrow{n}0\right)$, average $\mathrm{}(n=1\mathrm{})\mathrm{}$, and others. In addition, for $q=8\mathrm{}$, we find that there is only a single correlation length exponent $\nu$ describing the correlation length away from criticality. This is numerically very close to the pure Ising value $\nu =1\mathrm{}$.