Abstract
We present an extensive Monte Carlo study of the critical relaxation for the two-dimensional square lattice random-bond Potts model using Swendsen-Wang cluster flipping. The integrated autocorrelation time τ is calculated and the dynamic exponent z is estimated by analyzing the size dependence of τ. We find that z≈0 in agreement with estimates for the two-dimensional Ising model. We also present a study of the size dependence of the dynamic behavior of the pure eight-state Potts model which undergoes a first-order transition. The scaling is describable by the product of an exponential times a power law, a behavior which is quite different from that found in the random-bond case.
- Received 11 July 1996
DOI:https://doi.org/10.1103/PhysRevE.55.40
©1997 American Physical Society