arXiv:hep-lat/9601001 Abstract

arXiv:hep-lat/9601001Abstract References Reviews Resources

Chiral symmetry at finite T, the phase of the Polyakov loop and the spectrum of the Dirac operator

Published 1996-01-04Version 1

A recent Monte Carlo study of {\em quenched} QCD showed that the chiral condensate is non-vanishing above $T_c$ in the phase where the average of the Polyakov loop $P$ is complex. We show how this is related to the dependence of the spectrum of the Dirac operator on the boundary conditions in Euclidean time. We use a random matrix model to calculate the density of small eigenvalues and the chiral condensate as a function of $\arg P$. The chiral symmetry is restored in the $\arg P=2\pi/3$ phase at a higher $T$ than in the $\arg P=0$ phase. In the phase $\arg P = \pi$ of the $SU(2)$ gauge theory the chiral condensate stays nonzero for all~$T$.

Comments: 11 pages, REVTEX3.0, 3 EPSF figures. Packed by "uufiles" script

Journal: Phys.Lett. B375 (1996) 249-254

DOI: 10.1016/0370-2693(96)00262-6

Categories: hep-lat, hep-ph

Subjects: 11.10.Wx, 11.15.Ha, 11.30.Rd, 12.38.Aw

Keywords: chiral symmetry, polyakov loop, dirac operator, chiral condensate stays nonzero, random matrix model

Tags: journal article

Related articles: Most relevant | Search more

arXiv:1112.5107 [hep-lat] (Published 2011-12-21, updated 2012-04-05)

The chirally improved quark propagator and restoration of chiral symmetry

Mario Schröck

arXiv:1402.1887 [hep-lat] (Published 2014-02-08, updated 2014-04-26)

Symmetries of mesons after unbreaking of chiral symmetry and their string interpretation

M. Denissenya, L. Ya. Glozman, C. B. Lang

arXiv:hep-lat/9605038 (Published 1996-05-29)

Chiral symmetry and O(a) improvement in lattice QCD

Martin Luescher, Stefan Sint, Rainer Sommer, Peter Weisz

arXiv Analytics