Crossover from Two- to Three-Dimensional Behavior in Superfluids

Abstract

We have studied the superfluid density s on various size-lattices in the geometry L × L × H by numerical simulation of the x-y model using the Cluster Monte Carlo method. Applying the Kosterlitz-Thouless-Nelson renormalization group equations for the superfluid density we have been able to extrapolate to the L ∞ limit for a given value of H. In the superfluid phase we find that the superfluid density faithfully obeys the expected scaling law with H, using the experimental value for the critical exponent =0.6705. For the sizes of film thickness studied here the critical temperature Tc and the coefficient b entering the equation T/(s H) 1-b(1-T/Tc)1/2 are in agreement with the expected H-dependence deduced from general scaling ideas.

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