Vortex Depinning in a Two-Dimensional Superfluid

Abstract: We employ the Gross–Pitaevskii theory to model a quantized vortex depinning from a small obstacle in a two-dimensional superfluid due to an imposed background superfluid flow. We find that, when the flow’s velocity exceeds a critical value, the vortex drifts orthogonally to the flow before subsequently moving parallel to it away from the pinning site. The motion of the vortex around the pinning site is also accompanied by an emission of a spiral-shaped sound pulse. Through simulations, we present a phase diagr… Show more

“…In a rotating trap, all vortices are initially pinned in local minima of the density. When the trap's rotation velocity is ramped down, one or more vortices may suddenly unpin along the more energetically favorable direction [57]. Useful information on the vortex motion can be obtained by the imprinting procedure.…”

Exploring pulsar glitches with dipolar supersolids

“…In a rotating trap, all vortices are initially pinned in local minima of the density. When the trap's rotation velocity is ramped down, one or more vortices may suddenly unpin along the more energetically favorable direction [57]. Useful information on the vortex motion can be obtained by the imprinting procedure.…”

Exploring pulsar glitches with dipolar supersolids

Exploring Pulsar Glitches with Dipolar Supersolids