Published August 24, 2022 | Version 1.0.0

Vortices and vortex stripes in a dipolar Bose-Einstein condensate

  • 1. Lauritz
  • 2. Thomas
  • 3. Elena
  • 4. Claudia
  • 5. Giacomo
  • 6. Eva
  • 7. Russell N.
  • 8. Manfred J.
  • 9. Francesca

Description

Quantized vortices are a prototypical feature of superfluidity that have been observed in multiple quantum gas experiments. But the occurrence of vortices in dipolar quantum gases — a class of ultracold gases characterized by long-range anisotropic interactions — has not been reported yet. Here, we exploit the anisotropic nature of the dipole-dipole interaction of a dysprosium Bose-Einstein condensate to induce angular symmetry breaking in an otherwise cylindrically symmetric pancake-shaped trap. Tilting the magnetic field towards the radial plane deforms the cloud into an ellipsoid, which is then set into rotation. At stirring frequencies approaching the radial trap frequency, we observe the generation of dynamically unstable surface excitations, which cause angular momentum to be pumped into the system through vortices. Under continuous rotation, the vortices arrange into a stripe configuration along the field, in close agreement with numerical simulations.

Notes

Additional Funding acknowledgements: Austrian Science Fund FWF (AT) : I4426 | Magnetic atoms: from many-body physics to quantum technology German Research Foundation DFG (DE)/ Austrian Science Fund FWF (AT) : FOR 2247/ PI 2790 | From few to many-body physics with dipolar quantum gases

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Vortices and vortex stripes in a dipolar Bose-Einstein condensate.zip

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Additional details

Related works

Is supplemented by
Preprint: arXiv:2206.12265 (arXiv)

Funding

European Commission
RARE - Dipolar Physics and Rydberg Atoms with Rare-Earth Elements 681432
European Commission
QuantERA - QuantERA ERA-NET Cofund in Quantum Technologies 731473