Towards low-dimensionalization of four-dimensional QCD

Abstract

Inspired by the one-dimensional color-electric flux-tube in a hadron, we propose a possible way of low-dimensionalization of 4D QCD. As a strategy, we use gauge degrees of freedom and propose a new gauge fixing of ``dimensional reduction (DR) gauge". The DR gauge is defined so as to minimize R DR ∫ d4s~ Tr~[A2x(s)+A2y(s)], which preserves the 2D SU(Nc) gauge symmetry. We investigate low-dimensionalization properties of 4D DR-gauged QCD in SU(3) lattice QCD at β = 6.0. In the DR gauge, the amplitudes of two gluon components Ax(s) and Ay(s) are found to be strongly suppressed, and these components have a large effective mass of M 1.7 GeV. In the DR gauge, the static interquark potential is well reproduced only with the two components At(s) and Az(s), while Ax(s) and Ay(s) seem to be inactive. We investigate the spatial correlation of two t-directed gluons and find that the correlation decreases as e-mr with m 0.64 GeV, corresponding to the correlation length 1/m 0.31 fm. We reduce 4D QCD in the DR gauge to 2D QCD with the coupling g2D = g/, which approximately reproduces the string tension.

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