English

Non-perturbative QCD spin studies

High Energy Physics - Phenomenology 2007-05-23 v1

Abstract

A whole class of non-perturbative QCD studies, e.g. the instanton models, chiral quark models, etc. indicates that the effective degrees of freedom for the physics in the low Q^(2) < 1 GeV^(2) region could be the constituent quarks (CQs) and internal Goldstone bosons (IGBs). This leads to a nucleon structure with the spin being carried by three constituent quark systems, each composed of a massive compact CQ surrounded by a q\bar{q} sea perturbatively generated by the valence quark's IGB emissions. Such a CQ-system has a total angular momentum of 1/2 and a small anomalous magnetic moment, built up from a quark-spin polarization and a significant orbital motion in the quark sea. The distinctive phenomenological signal for such a non-perturbative structure is that the sea-quarks are polarized negatively, while the antiquarks are not polarized. This picture also suggests a negligibly small gluon polarization. All such features can be tested by experiments in the near future.

Keywords

Cite

@article{arxiv.hep-ph/9811279,
  title  = {Non-perturbative QCD spin studies},
  author = {T. P. Cheng and Ling-Fong Li},
  journal= {arXiv preprint arXiv:hep-ph/9811279},
  year   = {2007}
}

Comments

12 pages. Plenary talk given at Spin98, Protvino, Sept 9-12, 1998 (Symposium proceedings to be published by World Scientific PC)