English

Chiral Nonsymmetric Interaction in Strong Coupled QCD

High Energy Physics - Phenomenology 2019-09-02 v1

Abstract

Chiral symmetry in massless QCD is believed to be broken spontaneously. We discuss a possibility that the chiral symmetry is explicitly broken by QCD monopoles which appear only in strong coupled QCD. Namely, the monopole quark interaction explicitly breaks the chiral symmetry ( SUA(2)×_A(2)\times UA_A(1) ) just like bare quark mass terms. We show that the strength of the interaction is roughly 1010 times smaller than standard strong interactions. We describe it as an effective interaction gqˉqΦΦg'\bar{q}q\Phi^{\dagger}\Phi with the monopole field Φ\Phi and gg' being of the order of (10GeV)1(10\rm \,GeV)^{-1} or less. It produces small constituent quark masses less than 11MeV when the monopoles condense ( Φ0\langle\Phi\rangle\neq 0 ). We examine to what extent such a weak but explicit symmetry breaking interaction is allowed. In particular, examining Gell-Mann-Oakes-Renner relation we find that the presence of such a small symmetry breaking term is still allowed within the present accuracy of lattice gauge simulations. We predict some phenomenological effects caused by the chiral nonsymmetric monopole quark interaction. Quark confinement and chiral condensate ( qˉq0\langle\bar{q}q\rangle\neq 0 ) arise simultaneously. The condensate qˉq\langle\bar{q}q\rangle caused by the monopoles is proportional to monopole density and is estimated such that (qˉq)1/3160(-\langle\bar{q}q\rangle)^{1/3}\sim 160MeV. The weak monopole quark interaction leads to the small decay width of an observable monopole to hadrons.

Keywords

Cite

@article{arxiv.1908.11710,
  title  = {Chiral Nonsymmetric Interaction in Strong Coupled QCD},
  author = {Aiichi Iwazaki},
  journal= {arXiv preprint arXiv:1908.11710},
  year   = {2019}
}

Comments

10 pages, no figures. arXiv admin note: text overlap with arXiv:1809.00279

R2 v1 2026-06-23T11:01:04.141Z