English

Crossover from Two- to Three-Dimensional Behavior in Superfluids

Condensed Matter 2009-10-22 v1 High Energy Physics - Lattice

Abstract

We have studied the superfluid density ρs\rho_{s} on various size-lattices in the geometry L×L×HL \times L \times H by numerical simulation of the xyx-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 LL \to \infty limit for a given value of HH. In the superfluid phase we find that the superfluid density faithfully obeys the expected scaling law with HH, using the experimental value for the critical exponent ν=0.6705\nu=0.6705. For the sizes of film thickness studied here the critical temperature TcT_{c} and the coefficient bb entering the equation T/(ρsH)1b(1T/Tc)1/2T/(\rho_{s} H) \propto 1-b(1-T/T_{c})^{1/2} are in agreement with the expected HH-dependence deduced from general scaling ideas.

Keywords

Cite

@article{arxiv.cond-mat/9406014,
  title  = {Crossover from Two- to Three-Dimensional Behavior in Superfluids},
  author = {N. Schultka and E. Manousakis},
  journal= {arXiv preprint arXiv:cond-mat/9406014},
  year   = {2009}
}

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16 pages, postscript file, 264 kbytes