Youjin Deng, Timothy M. Garoni, Alan D. Sokal
Published 2007-01-05Version 1
We study the dynamic critical behavior of the local bond-update (Sweeny) dynamics for the Fortuin-Kasteleyn random-cluster model in dimensions d=2,3, by Monte Carlo simulation. We show that, for a suitable range of q values, the global observable S_2 exhibits "critical speeding-up": it decorrelates well on time scales much less than one sweep, so that the integrated autocorrelation time tends to zero as the critical point is approached. We also show that the dynamic critical exponent z_{exp} is very close (possibly equal) to the rigorous lower bound \alpha/\nu, and quite possibly smaller than the corresponding exponent for the Chayes-Machta-Swendsen-Wang cluster dynamics.
Comments: LaTex2e/revtex4, 4 pages, includes 5 figures
Journal: Phys.Rev.Lett.98:230602,2007
Dynamic critical behavior of the Chayes-Machta-Swendsen-Wang algorithm
Monte Carlo simulations of bosonic reaction-diffusion systems and comparison to Langevin equation description
Obtaining pressure versus concentration phase diagrams in spin systems from Monte Carlo simulations
