SU(3) lattice QCD study of the gluon propagator in maximally Abelian gauge: off-diagonal gluon mass generation and infrared Abelian dominance

Abstract

We investigate gluon propagators and the effective mass of the gluon fields in the MA gauge with U(1)3 × U(1)8 Landau gauge fixing in SU(3) lattice QCD. The Monte Carlo simulation is performed on 164 at β=5.7, 5.8 and 6.0 and 324 at β=5.8 and 6.0 at the quenched level. To calculate the propagators, we adopt a method to extract gauge fields from link-variables analytically in the SU(3) case. The off-diagonal gluons behave as massive vector bosons with the approximate effective mass M off 1.1 - 1.2 GeV in the region of r = 0.3 - 0.8 fm, and the propagation is limited within a short range. On the other hand, the diagonal gluons behave as light vector bosons with M diag 0.3 GeV and the propagation of diagonal gluons remains even in a large range. In this way, infrared Abelian dominance is shown in terms of short-range propagation of off-diagonal gluons. Furthermore, we investigate the functional form of the off-diagonal gluon propagator. The functional form is well described by the four-dimensional Euclidean Yukawa-type function exp(-m off r)/r with m off = 1.3 -1.4 GeV for r = 0.1- 0.8 fm. This also indicates that the spectral function of off-diagonal gluons has the negative-value region.