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Topological superfluid in one-dimensional spin-orbit-coupled atomic Fermi gases

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posted on 2024-08-13, 11:22 authored by Xiaji LiuXiaji Liu, Hui HuHui Hu
We investigate theoretically the prospect of realizing a topological superfluid in one-dimensional spin-orbit-coupled atomic Fermi gases under a Zeeman field in harmonic traps. In the absence of spin-orbit coupling, it is well known that the system is either a Bardeen-Cooper-Schrieffer superfluid or an inhomogeneous Fulde-Ferrell-Larkin-Ovchinnikov (FFLO) superfluid. Here we show that with spin-orbit coupling it could be driven into a topological superfluid, which supports zero-energy Majorana modes. However, in the weakly interacting regime the topological superfluid prefers to stay at the trap edge, in contrast to a FFLO superfluid, which occurs near the trap center. As a result, it is unlikely to experimentally observe an inhomogeneous FFLO superfluid with topo-logical order without specifically tailoring the geometry or other parameters of the Fermi cloud.

Funding

Imbalanced superfluidity: The quantum mystery that defies solution

Australian Research Council

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Ultracold atomic Fermi gases in the strongly interacting regime: A new frontier of quantum many-body physics

Australian Research Council

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History

Available versions

Published version

ISSN

1050-2947

Journal title

Physical Review A: Atomic, Molecular, and Optical Physics

Volume

85

Issue

3

Article number

article no. 033622

Publisher

American Physical Society

Copyright statement

Copyright © 2012 American Physical Society. The published version is reproduced with the permission of the publisher.

Language

eng

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