Critical Velocity for Vortex Shedding in a Bose-Einstein Condensate

Abstract

We present measurements of the critical velocity for vortex shedding in a highly oblate Bose-Einstein condensate with a moving repulsive Gaussian laser beam. As a function of the barrier height V0, the critical velocity vc shows a dip structure having a minimum at V0 ≈ μ , where μ is the chemical potential of the condensate. At fixed V0≈ 7μ, we observe that the ratio of vc to the speed of sound cs monotonically increases for decreasing σ/, where σ is the beam width and is the condensate healing length. The measured upper bound for vc/cs is about 0.4, which is in good agreement with theoretical predictions for a two-dimensional superflow past a circular cylinder. We explain our results with the density reduction effect of the soft boundary of the Gaussian obstacle, based on the local Landau criterion for superfluidity.