中文

Covariant Model for Dynamical Quark Confinement

核理论 2009-10-28 v1

摘要

Based on a recent manifestly covariant time-ordered approach to the relativistic many-body problem, the quark propagator is defined by a nonlinear Dyson--Schwinger-type integral equation, with a one-gluon loop. The resulting energy-dependent quark mass is such that the propagator is singularity-free for real energies, thus ensuring confinement. The self-energy integral converges without regularization, due to the chiral limit of the quark mass itself. Moreover, the integral determines the low-energy limit of the quark-gluon coupling constant, for which a value of g2/4π=4.712g^2/4\pi =4.712 is found.

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引用

@article{arxiv.nucl-th/9403006,
  title  = {Covariant Model for Dynamical Quark Confinement},
  author = {Helmut Haberzettl},
  journal= {arXiv preprint arXiv:nucl-th/9403006},
  year   = {2009}
}

备注

7 pages, REVTeX; 2 figures, available from the author (by fax, or as postscript files by email)