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Article Dans Une Revue Journal of Statistical Physics Année : 2008

Large Deviations in the Superstable Weakly Imperfect Bose Gas

Résumé

The superstable Weakly Imperfect Bose Gas {(WIBG)} was originally derived to solve the inconsistency of the Bogoliubov theory of superfluidity. Its grand-canonical thermodynamics was recently solved but not at {point of} the {(first order)} phase transition. This paper proposes to close this gap by using the large deviations formalism and in particular the analysis of the Kac distribution function. It turns out that, as a function of the chemical potential, the discontinuity of the Bose condensate density at the phase transition {point} disappears as a function of the particle density. Indeed, the Bose condensate continuously starts at the first critical particle density and progressively grows but the free-energy per particle stays constant until the second critical density is reached. At higher particle densities, the Bose condensate density as well as the free-energy per particle both increase {monotonously}.

Dates et versions

hal-00176087 , version 1 (02-10-2007)

Identifiants

Citer

J. -B. Bru, V. A. Zagrebnov. Large Deviations in the Superstable Weakly Imperfect Bose Gas. Journal of Statistical Physics, 2008, 133 (2). ⟨hal-00176087⟩
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