Triangular vortex lattices and giant vortices in rotating bubble Bose-Einstein condensates
Angela White
Abstract
We show that three-dimensional spherical-shell condensates respond to rotation by forming two aligned triangular Abrikosov-like vortex lattices on each hemispherical surface. The centrifugal force due to rotation causes an elliptical deformation of the spherical shell condensate shape and for faster rotation rates, drives the formation of a central multicharged vortex-antivortex pair at the poles surrounded by a ring of singly charged vortices in the bulk density. The vortex distributions observed in each hemisphere take a similar form to those found in rotating harmonic plus quartic traps.
Topics & Concepts
VortexPhysicsBose–Einstein condensateRotation (mathematics)Vortex ringCentrifugal forceCondensed matter physicsSuperfluiditySpherical shellShell (structure)BubbleClassical mechanicsMechanicsRotational speedMaterials scienceGeometryMathematicsComposite materialCold Atom Physics and Bose-Einstein CondensatesQuantum, superfluid, helium dynamicsStrong Light-Matter Interactions