Multicanonical Ensemble: A New Approach to Simulate First-order Phase Transitions
Abstract
Relying on the recently proposed multicanonical algorithm, we present a numerical simulation of the first order phase transition in the 2d 10-state Potts model on lattices up to sizes 100×100. It is demonstrated that the new algorithm lacks an exponentially fast increase of the tunneling time between metastable states as a function of the linear size L of the system. Instead, the tunneling time diverges approximately proportional to L2.65. Thus the computational effort as counted per degree of freedom for generating an independent configuration in the unstable region of the model rises proportional to V2.3, where V is the volume of the system. On our largest lattice we gain more than two orders of magnitude as compared to a standard heat bath algorithm. As a first physical application we report a high precision computation of the interfacial tension.
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