Kenji Fukazawa, Tomohiro Inagaki, Seiji Mukaigawa, Taizo Muta
Published 1999-10-12Version 1
The mechanism of the chiral symmetry breaking is investigated in the strong-coupling Abelian gauge theories at finite temperature. The Schwinger-Dyson equation in Landau gauge is employed in the real time formalism and is solved numerically within the framework of the instantaneous exchange approximation including the effect of the hard thermal loop for the photon propagator. It is found that the chiral symmetry is broken below the critical temperature T for sufficiently large coupling. The chiral phase transition is found to be of the 2nd order and the phase diagram on the $T-\alpha$ plane is obtained. It is investigated how the structure of the chiral phase transition is affected by the hard thermal loops in the photon propagator.
Comments: 15pages, uses epic.sty and eepic.sty
Journal: Prog.Theor.Phys. 105 (2001) 979-998
Phase transition and nucleon as soliton in the Nambu-Jona-Lasinio model at finite temperature and density
Langevin Dynamics of Chiral Phase Transition at Finite Temperature and Density
Role of Dual Higgs Mechanism in Chiral Phase Transition at Finite Temperature
