Consequence of superfluidity on the expansion of a rotating Bose-Einstein condensate

Abstract

We study the time evolution of a rotating condensate, that expands after being suddenly released from the confining trap, by solving the hydrodynamic equations of irrotational superfluids. For slow initial rotation speeds, 0, we find that the condensate's angular velocity increases rapidly to a maximum value and this is accompanied by a minimum in the deformation of the condensate in the rotating plane. During the expansion the sample makes a global rotation of approximately π/2, where the exact value depends on 0. This minimum deformation can serve as an easily detectable signature of superfluidity in a Bose--Einstein condensate.

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