Leggett mode in a two-component Fermi gas with dipolar interactions

Brendan C. Mulkerin; Xia Ji Liu; Hui Hu

doi:10.1103/PhysRevA.99.023626

Leggett mode in a two-component Fermi gas with dipolar interactions

Brendan C. Mulkerin, Xia Ji Liu, Hui Hu

Research output: Contribution to journal › Article › Research › peer-review

2 Citations (Scopus)

Abstract

We develop an effective field theory to understand collective modes of a three-dimensional two-component Fermi superfluid with dipolar interparticle interactions, which are modeled by an idealized separable potential. We first examine the phase transition of the system at zero temperature, as the fermionic superfluidity is known to be characterized by two competing order parameters. We find that for strong interactions there exists a regime where the two order parameters are out of phase and coupled, giving rise to an undamped massive Leggett mode. This is in addition to the well-known gapless phonon mode. We show that the Leggett mode can be seen in the spectral function of the in-medium Cooper pairs, and in principle could be measured through Bragg spectroscopy.

Original language	English
Article number	023626
Number of pages	7
Journal	Physical Review A
Volume	99
Issue number	2
DOIs	https://doi.org/10.1103/PhysRevA.99.023626
Publication status	Published - 26 Feb 2019
Externally published	Yes

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abstract = "We develop an effective field theory to understand collective modes of a three-dimensional two-component Fermi superfluid with dipolar interparticle interactions, which are modeled by an idealized separable potential. We first examine the phase transition of the system at zero temperature, as the fermionic superfluidity is known to be characterized by two competing order parameters. We find that for strong interactions there exists a regime where the two order parameters are out of phase and coupled, giving rise to an undamped massive Leggett mode. This is in addition to the well-known gapless phonon mode. We show that the Leggett mode can be seen in the spectral function of the in-medium Cooper pairs, and in principle could be measured through Bragg spectroscopy.",

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note = "Funding Information: We thank J. Wang and J. Zhou for their comments. Our research was supported by Australian Research Council's (ARC) Discovery Projects No. DP140100637, No. FT140100003, and No. DP180102018 (X.J.L.), and No. FT130100815 and No. DP170104008 (H.H.). Publisher Copyright: {\textcopyright} 2019 American Physical Society.",

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N2 - We develop an effective field theory to understand collective modes of a three-dimensional two-component Fermi superfluid with dipolar interparticle interactions, which are modeled by an idealized separable potential. We first examine the phase transition of the system at zero temperature, as the fermionic superfluidity is known to be characterized by two competing order parameters. We find that for strong interactions there exists a regime where the two order parameters are out of phase and coupled, giving rise to an undamped massive Leggett mode. This is in addition to the well-known gapless phonon mode. We show that the Leggett mode can be seen in the spectral function of the in-medium Cooper pairs, and in principle could be measured through Bragg spectroscopy.

AB - We develop an effective field theory to understand collective modes of a three-dimensional two-component Fermi superfluid with dipolar interparticle interactions, which are modeled by an idealized separable potential. We first examine the phase transition of the system at zero temperature, as the fermionic superfluidity is known to be characterized by two competing order parameters. We find that for strong interactions there exists a regime where the two order parameters are out of phase and coupled, giving rise to an undamped massive Leggett mode. This is in addition to the well-known gapless phonon mode. We show that the Leggett mode can be seen in the spectral function of the in-medium Cooper pairs, and in principle could be measured through Bragg spectroscopy.

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Leggett mode in a two-component Fermi gas with dipolar interactions

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