Physical Review Research (May 2023)

Making ghost vortices visible in two-component Bose-Einstein condensates

  • Andrii Chaika,
  • Andrea Richaud,
  • Alexander Yakimenko

DOI
https://doi.org/10.1103/PhysRevResearch.5.023109
Journal volume & issue
Vol. 5, no. 2
p. 023109

Abstract

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Ghost vortices constitute an elusive class of topological excitations in quantum fluids since the relevant phase singularities fall within regions where the superfluid density is almost zero. Here we present a platform that allows for the controlled generation and observation of such vortices. Upon rotating an imbalanced mixture of two-component Bose-Einstein condensates, one can obtain necklaces of real vortices in the majority component whose cores get filled by particles from the minority one. The wave function describing the state of the latter is shown to harbor a number of ghost vortices which are crucial to support the overall dynamics of the mixture. Their arrangement typically mirrors that of their real counterpart, hence resulting in a “dual” ghost-vortex necklace, whose properties are thoroughly investigated in the present paper. We also present a viable experimental protocol for the direct observation of ghost vortices in a ^{23}Na+^{39}K ultracold mixture. Quenching the intercomponent scattering length, some atoms are expelled from the vortex cores and, while diffusing, swirl around unpopulated phase singularities, thus turning them directly observable.