Rotating vortex lattice in a Bose-Einstein condensate trapped in combined quadratic and quartic radial potentials

Abstract

A dense vortex lattice in a rotating dilute Bose-Einstein condensate is studied with the Thomas-Fermi approximation. The upper critical angular velocity Omegac2 occurs when the intervortex separation b becomes comparable with the vortex core radius xi. For a radial harmonic trap, the loss of confinement as Omega approaches omegaperp implies a singular behavior. In contrast, an additional radial quartic potential provides a simple model for which Omegac2 is readily determined. Unlike the case of a type-II superconductor at fixed temperature, the onset of Omegac2 arises not only from decreasing b but also from increasing xi caused by the vanishing of the chemical potential as Omega approaches Omegac2.

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