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

Abstract

We study the color correlation between static quark and antiquark (q q) in the confined phase via reduced density matrices defined in color space. We adopt the standard Wilson gauge action and perform quenched calculations with the Coulomb gauge condition for reduced density matrices. The spatial volumes are L3 = 83, 163, 323 and 483, with the gauge couplings β = 5.7, 5.8 and 6.0. Each element of the reduced density matrix in the sub space of quarks' color degrees of freedom of the q q pair is calculated from staples defined by link variables. As a result, we find that is well written by a linear combination of the strongly correlated q q pair state with the color-singlet component and the uncorrelated q q pair state with random color configurations. We compute the Renyi entropies S Renyi from to investigate the q q distance dependence of the color correlation of the q q pair and find that the color correlation is quenched as the distance increases.