Short-time Monte Carlo simulation of the majority-vote model on cubic lattices

Abstract

We perform short-time Monte Carlo simulations to study the criticality of the isotropic two-state majority-vote model on cubic lattices of volume N = L3, with L up to 2048. We obtain the precise location of the critical point by examining the scaling properties of a new auxiliary function . We perform finite-time scaling analysis to accurately calculate the whole set of critical exponents, including the dynamical critical exponent z=2.027(9), and the initial slip exponent θ = 0.1081(1). Our results indicate that the majority-vote model in three dimensions belongs to the same universality class of the three-dimensional Ising model.