Critical dynamics of the superfluid phase transition in Model F

Abstract

We describe numerical simulations of the critical dynamics near the superfluid phase transition. The calculations are based on an implementation of a stochastic hydrodynamic theory known as model F in the classification of Hohenberg and Halperin. This theory is expected to describe dynamic scaling near the lambda transition in liquid 4He, Bose-Einstein condensation in ultracold atomic gases, and the superfluid transition in the unitary Fermi gas. Our simulation is based on a Metropolis algorithm previously applied to the critical endpoint of the liquid-gas phase transition in ordinary fluids. In the model E truncation of model F we obtain the expected dynamical exponent z 3/2. We observe the emergence of a propagating second sound mode at the phase transition. The second sound diffusivity Ds is consistent with the scaling relation Ds x, where is the correlation length and x=1/2.

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