Rapid rotation of a Bose-Einstein condensate in a harmonic plus quartic trap
Abstract
A two-dimensional rapidly rotating Bose-Einstein condensate in an anharmonic trap with quadratic and quartic radial confinement is studied analytically with the Thomas-Fermi approximation and numerically with the full time-independent Gross-Pitaevskii equation. The quartic trap potential allows the rotation speed to exceed the radial harmonic frequency ω. In the regime ω, the condensate contains a dense vortex array (approximated as solid-body rotation for the analytical studies). At a critical angular velocity h, a central hole appears in the condensate. Numerical studies confirm the predicted value of h, even for interaction parameters that are not in the Thomas-Fermi limit. The behavior is also investigated at larger angular velocities, where the system is expected to undergo a transition to a giant vortex (with pure irrotational flow).
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