Lattice QCD study of color correlations between static quarks with gluonic excitations

Abstract

We study the color correlation between static quark and antiquark (q q) that is accompanied by gluonic excitations in the confined phase at T=0 by constructing reduced density matrices in color space. We perform quenched lattice QCD calculations with the Coulomb gauge adopting the standard Wilson gauge action, and the spatial volume is L3 = 323 at β = 5.8, which corresponds to the lattice spacing a=0.14 fm and the system volume L3=4.53 fm3. We evaluate the color density matrix of static q q pairs in 6 channels (g+, g+', u, u', g, g'), and investigate the interquark-distance dependence of color correlations. We find that as the interquark distance increases, the color correlation quenches because of color leak into the gluon field and finally approaches the random color configuration in the q q systems with and without gluonic excitations. For this color screening effect, we evaluate the "screening mass" to discuss its dependence on channels, the quantum number of the gluonic excitations.

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