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High-precision Monte Carlo study of the three-dimensional XY model on GPU

Published 5 Nov 2012 in cond-mat.stat-mech and physics.comp-ph | (1211.0780v1)

Abstract: We perform large-scale Monte Carlo simulations of the classical XY model on a three-dimensional $L\times L \times L$ cubic lattice using the graphics processing unit (GPU). By the combination of Metropolis single-spin flip, over-relaxation and parallel-tempering methods, we simulate systems up to L=160. Performing the finite-size scaling analysis, we obtain estimates of the critical exponents for the three-dimensional XY universality class: $\alpha=-0.01293(48)$ and $\nu=0.67098(16)$. Our estimate for the correlation-length exponent $\nu$, in contrast to previous theoretical estimates, agrees with the most recent experimental estimate $\nu_{\rm exp}=0.6709(1)$ at the superfluid transition of $4$He in a microgravity environment.

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