Condensate density and superfluid mass density of a dilute Bose gas near the condensation transition
Abstract
We derive, through analysis of the structure of diagrammatic perturbation theory, the scaling behavior of the condensate and superfluid mass density of a dilute Bose gas just below the condensation transition. Sufficiently below the critical temperature, Tc, the system is governed by the mean field (Bogoliubov) description of the particle excitations. Close to Tc, however, mean field breaks down and the system undergoes a second order phase transition, rather than the first order transition predicted in Bogoliubov theory. Both condensation and superfluidity occur at the same critical temperature, Tc and have similar scaling functions below Tc, but different finite size scaling at Tc to leading order in the system size. Through a simple self-consistent two loop calculation we derive the critical exponent for the condensate fraction, 2β 0.66.
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