Glueball Spectroscopy in a Relativistic Many-Body Approach to Hadron
  Structure

A. Le Yaouanc; A. Le Yaouanc; A. Szczepaniak; C. A. Dominguez; C. E. Carlson; C. Michael; C.-R. Ji; D. J. Thouless; J. Bordes; M. A. Shifman; M. R. Gell-Mann; M. Shifman; N. Isgur; P. Geiger; P. Pascual; R. L. Jaffe; S. Adler; S. Godfrey; S. Narison; St. D. Glazek; T. Barnes; T. Barnes; T. Barnes; T. D. Lee; Y. Nambu

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Glueball Spectroscopy in a Relativistic Many-Body Approach to Hadron Structure

Authors: A. Le Yaouanc
A. Le Yaouanc
A. Szczepaniak
C. A. Dominguez
C. E. Carlson
C. Michael
C.-R. Ji
D. J. Thouless
J. Bordes
M. A. Shifman
M. R. Gell-Mann
M. Shifman
N. Isgur
P. Geiger
P. Pascual
R. L. Jaffe
S. Adler
S. Godfrey
S. Narison
St. D. Glazek
T. Barnes
T. Barnes
T. Barnes
T. D. Lee
Y. Nambu
Publication date: 27 November 1995
Publisher: 'American Physical Society (APS)'
Doi

Abstract

A comprehensive, relativistic many-body approach to hadron structure is advanced based on the Coulomb gauge QCD Hamiltonian. Our method incorporates standard many-body techniques which render the approximations amenable to systematic improvement. Using BCS variational methods, dynamic chiral symmetry breaking naturally emerges and both quarks and gluons acquire constituent masses. Gluonia are studied both in the valence and in the collective, random phase approximations. Using representative values for the strong coupling constant and string tension, calculated quenched glueball masses are found to be in remarkable agreement with lattice gauge theory.Comment: 12 pages, 1 uuencoded ps figure, RevTe

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