English

Confinement Physics in Quantum Chromodynamics

High Energy Physics - Lattice 2009-09-25 v2 High Energy Physics - Phenomenology

Abstract

We study the confinement physics in QCD in the maximally abelian (MA) gauge using the SU(2) lattice QCD, based on the dual-superconductor picture. In the MA gauge, off-diagonal gluon components are forced to be small, and the off-diagonal angle variable χμ(s)\chi_\mu(s) tends to be random. Within the random-variable approximation for χμ(s)\chi_\mu(s), we analytically prove the perimeter law of the off-diagonal gluon contribution to the Wilson loop in the MA gauge, which leads to abelian dominance on the string tension. To clarify the origin of abelian dominance for the long-range physics, we study the charged-gluon propagator in the MA gauge using the lattice QCD, and find that the effective mass mch0.9GeVm_{ch} \simeq 0.9 {\rm GeV} of the charged gluon is induced by the MA gauge fixing. In the MA gauge, there appears the macroscopic network of the monopole world-line covering the whole system, which would be identified as monopole condensation at a large scale. To prove monopole condensation in the field-theoretical manner, we derive the inter-monopole potential from the dual Wilson loop in the monopole part of QCD, which carries the nonperturbative QCD aspects, in the MA gauge. The dual gluon mass is evaluated as mBm_B \simeq 0.5GeV in the monopole part in the infrared region, which is the evidence of the dual Higgs mechanism by monopole condensation.

Keywords

Cite

@article{arxiv.hep-lat/9807034,
  title  = {Confinement Physics in Quantum Chromodynamics},
  author = {Hideo Suganuma and Hiroko Ichie and Kazuhisa Amemiya and Atsunori Tanaka},
  journal= {arXiv preprint arXiv:hep-lat/9807034},
  year   = {2009}
}

Comments

Talk given at Int. Workshop on ``Future Directions in Quark Nuclear Physics''(QNP98), Adelaide, Australia, Mar. 1998, and to be published in the Proceedings (World Scientific)