M. Houbiers, H. T. C. Stoof, E. A. Cornell
Published 1996-12-23Version 1
We investigate the possibilities of distinguishing the mean-field and fluctuation effects on the critical temperature of a trapped Bose gas with repulsive interatomic interactions. Since in a direct measurement of the critical temperature as a function of the number of trapped atoms these effects are small compared to the ideal gas results, we propose to observe Bose-Einstein condensation by adiabatically ramping down the trapping frequency. Moreover, analyzing this adiabatic cooling scheme, we show that fluctuation effects can lead to the formation of a Bose condensate at frequencies which are much larger than those predicted by the mean-field theory.
Comments: 4 pages of ReVTeX and 3 figures. Submitted to Physical Review A
First-Order Transition in the Breakdown of Disordered Media
Critical temperature of one-dimensional Ising model with long-range interaction revisited
Critical temperature of the superfluid transition in bose liquids
