No serious meson spectroscopy without scattering
Abstract
The principal purpose of meson spectroscopy is to understand the confining force, which is generally assumed to be based on low-energy QCD. This is usually done in the context of quark models that ignore the dynamical effects of quark-pair creation and decay. Very recent lattice calculations confirm much earlier model results showing that neglecting such effects, in the so-called quenched approximation, may give rise to discrepancies of hundreds of MeV, and so distort the meson spectra resulting from quark confinement only. Models attempting to mimic unquenching through a redefinition of the constituent quark mass or screening of the confining potential at larger interquark separations are clearly incapable of accounting for the highly non-perturbative and non-linear effects on mesonic bound-state and resonance poles, as demonstrated with several published examples.
Cite
@article{arxiv.1502.05250,
title = {No serious meson spectroscopy without scattering},
author = {George Rupp and Eef van Beveren and Susana Coito},
journal= {arXiv preprint arXiv:1502.05250},
year = {2015}
}
Comments
6 pages, 5 figures (7 plots), appolb style, Talk given by G. Rupp at the "EEF70" Workshop on Unquenched Hadron Spectroscopy: Non-Perturbative Models and Methods of QCD, Coimbra, 1-5 Sept. 2014, Conference no. C14-09-01.4