G. W. Carter, P. J. Ellis, S. Rudaz
Published 1996-12-16Version 1
We investigate the finite temperature behavior of the meson sector of an effective Lagrangian which describes nuclear matter. A method is developed for evaluating the logarithmic terms in the effective potential which involves expansion and resummation; the result is written in terms of the exponential integral. In the absence of explicit chiral symmetry breaking, a phase transition restores the symmetry at a temperature of 190 MeV; when the pion has a mass the transition is smooth. At a much higher temperature a first order phase transition restores scale symmetry.
Comments: 20 pages latex plus 8 postscript figures
Journal: Nucl.Phys. A618 (1997) 317-329
An Effective Lagrangian with Broken Scale and Chiral Symmetry IV: Nucleons and Mesons at Finite Temperature
An Effective Lagrangian with Broken Scale and Chiral Symmetry Applied to Nuclear Matter and Finite Nuclei
Topological susceptibility at zero and finite temperature in the Nambu-Jona-Lasinio model
