Quasiparticle Properties in Effective Field Theory

Baker; Baker; Beane; Bedaque; Bedaque; Bedaque; Bernard; Bishop; Braaten; Braaten; Bund; DeMarco; Efimov; Fetter; Furnstahl; Furnstahl; Galitskii; Gasser; H.-W. Hammer; Hammer; Kaplan; Kaplan; L. Platter; Landau; Landau; Landau; Lepage; Lepage; Luttinger; Meißner; Migdal; Negele; Nozieres; Sartor; Steele; Truscott; U.-G. Meißner; van Kolck; Weinberg

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Quasiparticle Properties in Effective Field Theory

Authors: Baker
Baker
Beane
Bedaque
Bedaque
Bedaque
Bernard
Bishop
Braaten
Braaten
Bund
DeMarco
Efimov
Fetter
Furnstahl
Furnstahl
Galitskii
Gasser
H.-W. Hammer
Hammer
Kaplan
Kaplan
L. Platter
Landau
Landau
Landau
Lepage
Lepage
Luttinger
Meißner
Migdal
Negele
Nozieres
Sartor
Steele
Truscott
U.-G. Meißner
van Kolck
Weinberg
Publication date: 27 August 2002
Publisher: 'Elsevier BV'
Doi

Abstract

The quasiparticle concept is an important tool for the description of many-body systems. We study the quasiparticle properties for dilute Fermi systems with short-ranged, repulsive interactions using effective field theory. We calculate the proper self-energy contributions at order (K_f/Lambda)^3, where Lambda is the short-distance scale that sets the size of the effective range parameters and K_f the Fermi momentum. The quasiparticle energy, width, and effective mass to order O(K_f/Lambda)^3 are derived from the calculated self-energy.Comment: 15 pages, revtex4, 4 PS figure

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