Fermionization of a Few-Body Bose System Immersed into a Bose-Einstein Condensate

• URL: http://arxiv.org/abs/2302.01743v4
• Date: Fri, 30 Jun 2023 10:20:59 GMT
• Title: Fermionization of a Few-Body Bose System Immersed into a Bose-Einstein Condensate
• Authors: Tim Keller, Thom\'as Fogarty, Thomas Busch
• Abstract summary: We study the recently introduced self-pinning transition [Phys. Rev. Lett. 128, 053401 (2022) in a quasi-one-dimensional two-component quantum gas. As a result of the matter-wave backaction, the fermionization in the limit of infinite intraspecies repulsion occurs via a first-order phase transition to the self-pinned state. The system also exhibits an additional super state for the immersed component if the interspecies interaction is able to overcome the intraspecies repulsion.
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• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: We study the recently introduced self-pinning transition [Phys. Rev. Lett. 128, 053401 (2022)] in a quasi-one-dimensional two-component quantum gas in the case where the component immersed into the Bose-Einstein condensate has a finite intraspecies interaction strength. As a result of the matter-wave backaction, the fermionization in the limit of infinite intraspecies repulsion occurs via a first-order phase transition to the self-pinned state, which is in contrast to the asymptotic behavior in static trapping potentials. The system also exhibits an additional superfluid state for the immersed component if the interspecies interaction is able to overcome the intraspecies repulsion. We approximate the superfluid state in an analytical model and derive an expression for the phase transition line that coincides with well-known phase separation criteria in binary Bose systems. The full phase diagram of the system is mapped out numerically for the case of two and three atoms in the immersed component.

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