Condensate fraction and critical temperature of a trapped interacting
  Bose gas

A. Griffin; C.C. Bradley; D.A. Huse; D.S. Jin; F. Dalfovo; G. Baym; J. Oliva; K.B. Davis; M. Edwards; M. Edwards; M.-O. Mewes; M.-O. Mewes; M.H. Anderson; P.A. Ruprecht; S. Grossmann; S. Grossmann; S. Stringari; T.T. Chou; V. Bagnato; V.N. Popov; V.V. Goldman

research

Condensate fraction and critical temperature of a trapped interacting Bose gas

Authors: A. Griffin
C.C. Bradley
D.A. Huse
D.S. Jin
F. Dalfovo
G. Baym
J. Oliva
K.B. Davis
M. Edwards
M. Edwards
M.-O. Mewes
M.-O. Mewes
M.H. Anderson
P.A. Ruprecht
S. Grossmann
S. Grossmann
S. Stringari
T.T. Chou
V. Bagnato
V.N. Popov
V.V. Goldman
Publication date: 16 July 1996
Publisher: 'American Physical Society (APS)'
Doi

Abstract

By using a mean field approach, based on the Popov approximation, we calculate the temperature dependence of the condensate fraction of an interacting Bose gas confined in an anisotropic harmonic trap. For systems interacting with repulsive forces we find a significant decrease of the condensate fraction and of the critical temperature with respect to the predictions of the non-interacting model. These effects go in the opposite direction compared to the case of a homogeneous gas. An analytic result for the shift of the critical temperature holding to first order in the scattering length is also derived.Comment: 8 pages, REVTEX, 2 figures, also available at http://anubis.science.unitn.it/~oss/bec/BEC.htm

Similar works

Full text

Available Versions

Crossref

Last time updated on 03/01/2020