Shell-shaped Bose-Einstein condensates based on dual-species mixtures

A. Wolf, P. Boegel, M. Meister, A. Balaž, N. Gaaloul, and M. A. Efremov
Phys. Rev. A 106, 013309 – Published 11 July 2022
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Abstract

Ultracold quantum gases confined in three-dimensional bubble traps are promising tools for exploring many-body effects on curved manifolds. As an alternative to the conventional technique of radio-frequency dressing, we propose to create such shell-shaped Bose-Einstein condensates in microgravity based on dual-species atomic mixtures, and we analyze their properties as well as the feasibility of realizing symmetrically filled shells. Beyond similarities with the radio-frequency dressing method, as in the collective excitation spectrum, our approach has several natural advantages like the robustness of the created quantum bubbles and the possibility of magnifying shell effects through an interaction-driven expansion.

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  • Received 10 November 2021
  • Revised 8 April 2022
  • Accepted 3 June 2022

DOI:https://doi.org/10.1103/PhysRevA.106.013309

©2022 American Physical Society

Physics Subject Headings (PhySH)

  1. Research Areas
Bose-Einstein condensatesMixtures of atomic and/or molecular quantum gases
  1. Physical Systems
Bose gases
Atomic, Molecular & Optical

Authors & Affiliations

A. Wolf1,*, P. Boegel2, M. Meister1, A. Balaž3, N. Gaaloul4, and M. A. Efremov1,2

  • 1Institute of Quantum Technologies, German Aerospace Center (DLR), 89081 Ulm, Germany
  • 2Institut für Quantenphysik and Center for Integrated Quantum Science and Technology (IQST), Universität Ulm, 89081 Ulm, Germany
  • 3Institute of Physics Belgrade, University of Belgrade, 11080 Belgrade, Serbia
  • 4Institut für Quantenoptik, Leibniz Universität Hannover, 30167 Hannover, Germany

  • *Corresponding author: a.wolf@dlr.de

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Vol. 106, Iss. 1 — July 2022

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