Rho meson properties from combining QCD-based models
Abstract
Aiming at the calculation of the properties of rho-mesons, non-perturbative QCD-based methods are discussed concerning their potentials as well as their short-comings. The latter are overcome by combining these techniques. The utilized methods are (i) the chiral constituent quark model deduced from the instanton vacuum model and large-N_c arguments, (ii) chiral perturbation theory unitarized by the inverse amplitude method and (iii) QCD sum rules. Advantages of the combination of these methods are especially the absence of un-physical quark-production thresholds and parameter-free results. Already in the chiral limit and in leading order in 1/N_c one obtains a reasonable result for the mass of the rho-meson, namely m_rho = 790 \pm 30 MeV. Using the KSFR relation the universality of the rho-meson coupling is recovered. The latter is found to be g = 6.0 \pm 0.3.
Cite
@article{arxiv.hep-ph/0303020,
title = {Rho meson properties from combining QCD-based models},
author = {Stefan Leupold},
journal= {arXiv preprint arXiv:hep-ph/0303020},
year = {2009}
}
Comments
16 pages, 1 figure, Revtex4