V. Martin-Mayor
Published 2006-11-21Version 1
A generalization of the microcanonical ensemble suggests a simple strategy for the simulation of first order phase transitions. At variance with flat-histogram methods, there is no iterative parameters optimization, nor long waits for tunneling between the ordered and the disordered phases. We test the method in the standard benchmark: the Q-states Potts model (Q=10 in 2 dimensions and Q=4 in 3 dimensions), where we develop a cluster algorithm. We obtain accurate results for systems with more than one million of spins, outperforming flat-histogram methods that handle up to tens of thousands of spins.
Comments: 4 pages, 3 postscript figures
Journal: Phys.Rev.Lett.98:137207,2007
Analytical Calculation of the Nucleation Rate for First Order Phase Transitions beyond the Thin Wall Approximation
Universal scaling in first-order phase transitions mixed with nucleation and growth
Percolation on the average and spontaneous magnetization for q-states Potts model on graph
