The $ÏÏ$ Cloud Contribution to the $Ï$ Width in Nuclear Matter
arXiv:1307.4001 · doi:10.1016/j.physletb.2013.12.056
Abstract
The width of the $Ï$ meson in cold nuclear matter is computed in a hadronic many-body approach, focusing on a detailed treatment of the medium modifications of intermediate $ÏÏ$ states. The $Ï$ and $Ï$ propagators are dressed by their selfenergies in nuclear matter taken from previously constrained many-body calculations. The pion selfenergy includes $Nh$ and $Îh$ excitations with short-range correlations, while the $Ï$ selfenergy incorporates the same dressing of its $2Ï$ cloud with a full 3-momentum dependence and vertex corrections, as well as direct resonance-hole excitations; both contributions were quantitatively fit to total photo-absorption spectra and $ÏN\toÏN$ scattering. Our calculations account for in-medium decays of type $ÏN\to ÏN^{(*)}, ÏÏN(Î)$, and 2-body absorptions $ÏNN\to NN^{(*)},ÏNN$. This causes deviations of the in-medium $Ï$ width from a linear behavior in density, with important contributions from spacelike $Ï$ propagators. The $Ï$ width from the $ÏÏ$ cloud may reach up to 200 MeV at normal nuclear matter density, with a moderate 3-momentum dependence. This largely resolves the discrepancy of linear $T$-$\varrho$ approximations with the values deduced from nuclear photoproduction measurements.
7 pages, 4 eps figures; v2: includes 3-mom dependence of width and additional discussion