Self-bound many-body states of quasi-one-dimensional dipolar Fermi gases: Exploiting Bose-Fermi mappings for generalized contact interactions

F. Deuretzbacher; G.M. Bruun; C. J. Pethick; M. Jona-Lasinio; S.M. Reimann; L. Santos

doi:10.1103/PhysRevA.88.033611

Self-bound many-body states of quasi-one-dimensional dipolar Fermi gases: Exploiting Bose-Fermi mappings for generalized contact interactions

F. Deuretzbacher, G.M. Bruun, C. J. Pethick, M. Jona-Lasinio, S.M. Reimann, L. Santos

Teoretisk højenergi, astropartikel og gravitationel fysik

7 Citationer (Scopus)

Abstract

Using a combination of results from exact mappings and from mean-field theory we explore the phase diagram of quasi-one-dimensional systems of identical fermions with attractive dipolar interactions. We demonstrate that at low density these systems provide a realization of a single-component one-dimensional Fermi gas with a generalized contact interaction. Using an exact duality between one-dimensional Fermi and Bose gases, we show that when the dipole moment is strong enough, bound many-body states exist, and we calculate the critical coupling strength for the emergence of these states. At higher densities, the Hartree-Fock approximation is accurate, and by combining the two approaches we determine the structure of the phase diagram. The many-body bound states should be accessible in future experiments with ultracold polar molecules.

Originalsprog	Engelsk
Tidsskrift	Physical Review A (Atomic, Molecular and Optical Physics)
Vol/bind	88
Udgave nummer	3
Sider (fra-til)	033611
Antal sider	5
ISSN	2469-9926
DOI	https://doi.org/10.1103/PhysRevA.88.033611
Status	Udgivet - 10 sep. 2013

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10.1103/PhysRevA.88.033611

http://link.aps.org/doi/10.1103/PhysRevA.88.033611

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Self-bound many-body states of quasi-one-dimensional dipolar Fermi gases : Exploiting Bose-Fermi mappings for generalized contact interactions. / Deuretzbacher, F.; Bruun, G.M.; Pethick, C. J. et al.

I: Physical Review A (Atomic, Molecular and Optical Physics), Bind 88, Nr. 3, 10.09.2013, s. 033611.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

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AU - Deuretzbacher, F.

AU - Bruun, G.M.

AU - Pethick, C. J.

AU - Jona-Lasinio, M.

AU - Reimann, S.M.

AU - Santos, L.

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N2 - Using a combination of results from exact mappings and from mean-field theory we explore the phase diagram of quasi-one-dimensional systems of identical fermions with attractive dipolar interactions. We demonstrate that at low density these systems provide a realization of a single-component one-dimensional Fermi gas with a generalized contact interaction. Using an exact duality between one-dimensional Fermi and Bose gases, we show that when the dipole moment is strong enough, bound many-body states exist, and we calculate the critical coupling strength for the emergence of these states. At higher densities, the Hartree-Fock approximation is accurate, and by combining the two approaches we determine the structure of the phase diagram. The many-body bound states should be accessible in future experiments with ultracold polar molecules.

AB - Using a combination of results from exact mappings and from mean-field theory we explore the phase diagram of quasi-one-dimensional systems of identical fermions with attractive dipolar interactions. We demonstrate that at low density these systems provide a realization of a single-component one-dimensional Fermi gas with a generalized contact interaction. Using an exact duality between one-dimensional Fermi and Bose gases, we show that when the dipole moment is strong enough, bound many-body states exist, and we calculate the critical coupling strength for the emergence of these states. At higher densities, the Hartree-Fock approximation is accurate, and by combining the two approaches we determine the structure of the phase diagram. The many-body bound states should be accessible in future experiments with ultracold polar molecules.

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DO - 10.1103/PhysRevA.88.033611

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JF - Physical Review A - Atomic, Molecular, and Optical Physics

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Self-bound many-body states of quasi-one-dimensional dipolar Fermi gases: Exploiting Bose-Fermi mappings for generalized contact interactions

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