Scattering of vector mesons off nucleons
arXiv:nucl-th/0112052 · doi:10.1016/j.nuclphysa.2005.11.017
Abstract
We construct a relativistic and unitary approach to 'high' energy pion- and photon-nucleon reactions taking the $ÏN, ÏÎ$, $ÏN$, $ÏN$, $ηN, K Î, K Σ$ final states into account. Our scheme dynamically generates the s- and d-wave nucleon resonances N(1535), N(1650) and N(1520) and isobar resonances $Î(1620)$ and $Î(1700)$ in terms of quasi-local interaction vertices. The description of photon-induced processes is based on a generalized vector-meson dominance assumption which directly relates the electromagnetic quasi-local 4-point interaction vertices to the corresponding vertices involving the $Ï$ and $Ï$ fields. We obtain a satisfactory description of the elastic and inelastic pion- and photon-nucleon scattering data in the channels considered. The resulting s-wave $Ï$- and $Ï$-nucleon scattering amplitudes are presented. Using these amplitudes we compute the leading density modification of the $Ï$ and $Ï$ energy distributions in nuclear matter. We find a repulsive energy shift for the $Ï$ meson at small nuclear density but predict considerable strength in resonance-hole like $Ï$-meson modes. Compared to previous calculations our result for the $Ï$-meson spectral function shows a significantly smaller in-medium effect. This reflects a fairly small coupling strength of the N(1520) resonance to the $ÏN$ channel.
78 pages, 19 figures, moderately revised version, accepted in Nucl. Phys. A