Production of J/ on the nucleon and deuteron targets

Abstract

A coupled-channel model with π N, N and J/ N channels is developed to predict the π + N → J/ + N cross sections. The J/-N interaction is parameterized in a form related to what has been predicted by the effective field theory approach and Lattice QCD. The other interactions within the model are constrained by the decay width of J/ → + π and the total cross section data of π N reactions. The calculated meson-baryon amplitudes are then used to predict the cross sections of the J/ production on the deuteron target by including the contributions from the impulse term and the one-loop calculations of the final NN and J/ N re-scattering effects. Predictions of the dependence of the cross sections of π- + p → J/+ n, γ + d → J/ + n + p, and π+ d → J/ +p +p on the J/-N potentials are presented for experimental determinations of the J/-N interaction. Within the vector meson dominance model, we have also applied the constructed coupled-channel model to predict the γ + p→ J/ + p cross sections near the J/ production threshold.