Lattice QCD study of static quark and antiquark correlations at finite T via entanglement entropies

Abstract

With the aim of clarification of color correlations among quarks, we investigate the color correlation between a static quark and an antiquark (static q q) below and above the phase transition temperature Tc through the entanglement entropy(EE). By a quenched lattice QCD calculation on an anisotropic lattice adopting the standard Wilson gauge action in the Coulomb gauge, we compute a reduced density matrix defined in the color space, and the entanglement entropy S EE constructed from . The spatial volume is L3 = 243 and the temporal extents are NT = 12,13,14,15,16,18,20 and 24, with a gauge coupling β = 5.75 and a renormalized anisotropy = 4.0, which corresponds to temperatures between 180 and 370 MeV. From an analysis of and S EE, the color correlation between q q pairs is obtained as a function of the interquark distance R and the temperature T. Below Tc, the R-dependence of the color correlation resembles that at T=0: the quark's color correlation gradually decreases as R increases due to the color screening by in-between gluons. Above Tc, due to the deconfinement phase transition, the color correlation among quarks is found to quickly dissappear. Further, we investigate the color screening effect via the screening mass defined by , and discuss the differences in the screening properties between the small and large R regions.