Quantum Phases of Vortices in Rotating Bose-Einstein Condensates

Abstract

We investigate the groundstates of weakly interacting bosons in a rotating trap as a function of the number of bosons, N, and the average number of vortices, NV. We identify the filling fraction N/NV as the parameter controlling the nature of these states. We present results indicating that, as a function of , there is a zero temperature phase transition between a triangular vortex lattice phase, and strongly-correlated vortex liquid phases. The vortex liquid phases appear to be the Read-Rezayi parafermion states.

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