Analytical treatment of interacting Fermi gas in arbitrary dimensional
  harmonic trap

Block M; Bruun G M; Bruun G M; Haldane F D M; Heiselberg H Mottelson B; Hiroyuki Yoshimoto; Houbiers M; Menotti C Pedri P Stringari S; Schreck F; Search C P; Stoof H T C; Susumu Kurihara; van Zyl B P; Vichi L; Viefers S

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Analytical treatment of interacting Fermi gas in arbitrary dimensional harmonic trap

Authors: Block M
Bruun G M
Bruun G M
Haldane F D M
Heiselberg H Mottelson B
Hiroyuki Yoshimoto
Houbiers M
Menotti C Pedri P Stringari S
Schreck F
Search C P
Stoof H T C
Susumu Kurihara
van Zyl B P
Vichi L
Viefers S
Publication date: 1 January 2002
Publisher: 'IOP Publishing'
Doi

Abstract

We study normal state properties of an interacting Fermi gas in an isotropic harmonic trap of arbitrary dimensions. We exactly calculate the first-order perturbation terms in the ground state energy and chemical potential, and obtain simple analytic expressions of the total energy and chemical potential. At zero temperature, we find that Thomas-Fermi approximation agrees well with exact results for any dimension even though system is dilute and small, i.e. when the Thomas-Fermi approximation is generally expected to fail. In the high temperature (classical) region, we find interaction energy decreases in proportion to T^(-d/2), where T is temperature and d is dimension of the system. Effect of interaction in the ground state in two and three-dimensional systems is also discussed.Comment: 15 pages, 4 figure

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