Critical behavior of a 2D spin-pseudospin model in a strong exchange limit

TL;DR

This study investigates the critical behavior of a 2D spin-pseudospin model with charge impurities using Monte Carlo simulations, revealing non-universal critical exponents influenced by interaction parameters.

Contribution

It provides the first detailed analysis of the static critical exponents in a 2D spin-pseudospin model with charge impurities across various interaction parameters.

Findings

Critical exponents vary with interaction parameters

System exhibits non-universal critical behavior

Monte Carlo simulations effectively analyze phase transitions

Abstract

We study the 2D static spin-pseudospin model equivalent to the dilute frustrated antiferromagnetic Ising model with charge impurities. We present the results of classical Monte Carlo simulation on a square lattice with periodic boundary conditions in a strong exchange limit. In the framework of the finite-size scaling theory we obtained the static critical exponents for the specific heat $\alpha$ and the correlation length $\nu$ for a wide range of the local density-density interaction parameter $\Delta$ and charge density $n$. It was shown that the system exhibits non-universal critical behavior depending on these parameters.