Lattice QCD Analysis for Gluons

Abstract

Nonperturbative properties of gluons are studied in SU(3) lattice QCD at the quenched level. The first subject is a functional-form analysis of the gluon propagator Dμab(x) in the Landau gauge. We find that the gluon propagator Dμμaa(r) obtained in lattice QCD is well described by the four-dimensional (4D) Yukawa-type function e-mr/r with m 600MeV for the Euclidean 4D distance r = 0.1 1.0 fm. In momentum space, the gluon propagator Dμμaa(p2) (p= 0.5 3 GeV) is found to be well approximated with a new-type propagator of (p2+m2)-3/2, which corresponds to 4D Fourier image of the Yukawa-type function. Associated with the Yukawa-type gluon propagator, we derive analytical expressions for the zero-spatial-momentum propagator D0(t), the effective mass M eff(t), and the spectral function (ω) of the gluon field. The mass parameter m turns out to be the infrared effective mass of gluons. The obtained gluon spectral function (ω) is almost negative-definite for ω >m, except for a positive δ-functional peak at ω=m. The second subject is a lattice-QCD determination of the relevant gluonic momentum-component for color confinement. As a remarkable fact, the string tension is found to be almost unchanged even after cutting off the high-momentum gluon component above 1.5 GeV in the Landau gauge. In fact, the relevant gluonic scale for color confinement is concluded to be below 1.5 GeV.