Fermion Pairing Dynamics in the Relativistic Scalar Plasma

A. F. R. de Toledo Piza; A. F. R. de Toledo Piza; A. K. Kerman; A. K. Kerman; C. R. Willis; C.-Y. Lin; Chi-Yong Lin; D. Boyanovsky; E. R. Harrison; E. R. Takano Natti; E. R. Takano Natti; E. T. Jaynes; F. Cooper; G. Amelino-Camelia; G. Kalman; G. Kalman; G. Marx; J. D. Walecka; J. Diaz Alonso; L. S. Celenza; Lin Chi Yong; M. C. Nemes; O. Éboli; P. L. Natti; P. L. Natti; P. M. Stevenson; P. M. Stevenson; P. M. Stevenson; P. Ring; P. Tommasini; R. Hakim; S. K. Kim; S.-Y. Pi; Ya. B. Zeldovich

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Fermion Pairing Dynamics in the Relativistic Scalar Plasma

Authors: A. F. R. de Toledo Piza
A. F. R. de Toledo Piza
A. K. Kerman
A. K. Kerman
C. R. Willis
C.-Y. Lin
Chi-Yong Lin
D. Boyanovsky
E. R. Harrison
E. R. Takano Natti
E. R. Takano Natti
E. T. Jaynes
F. Cooper
G. Amelino-Camelia
G. Kalman
G. Kalman
G. Marx
J. D. Walecka
J. Diaz Alonso
L. S. Celenza
Lin Chi Yong
M. C. Nemes
O. Éboli
P. L. Natti
P. L. Natti
P. M. Stevenson
P. M. Stevenson
P. M. Stevenson
P. Ring
P. Tommasini
R. Hakim
S. K. Kim
S.-Y. Pi
Ya. B. Zeldovich
Publication date: 23 July 1999
Publisher: 'American Physical Society (APS)'
Doi

Abstract

Using many-body techniques we obtain the time-dependent Gaussian approximation for interacting fermion-scalar field models. This method is applied to an uniform system of relativistic spin-1/2 fermion field coupled, through a Yukawa term, to a scalar field in 3+1 dimensions, the so-called quantum scalar plasma model. The renormalization for the resulting Gaussian mean-field equations, both static and dynamical, are examined and initial conditions discussed. We also investigate solutions for the gap equation and show that the energy density has a single minimum.Comment: 21 pages, latex, 4 postscript figures, new sections, some literary changes, notation corrections, accepted for publication in Phys. Rev

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