Quantum Mechanics of Dynamical Zero Mode in QCD1+1 on the Light-Cone

Abstract

Motivated by the work of Kalloniatis, Pauli and Pinsky, we consider the theory of light-cone quantized QCD1+1 on a spatial circle with periodic and anti-periodic boundary conditions on the gluon and quark fields respectively. This approach is based on Discretized Light-Cone Quantization (DLCQ). We investigate the canonical structures of the theory. We show that the traditional light-cone gauge A- = 0 is not available and the zero mode (ZM) is a dynamical field, which might contribute to the vacuum structure nontrivially. We construct the full ground state of the system and obtain the Schr\"odinger equation for ZM in a certain approximation. The results obtained here are compared to those of Kalloniatis et al. in a specific coupling region.

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