J/-meson photoproduction off the nucleon in a dynamical model
Abstract
The photoproduction of J/ meson off the nucleon is investigated within a dynamical model approach based on a Hamiltonian which describes the reaction mechanisms of the Pomeron exchange, meson exchange, and direct J/ radiation terms.To shed light on the low-energy mechanism, we scrutinize the role of light-meson [π0(135), η(548), η'(958), f1(1285)] and charmonium-meson [ηc(1S), c0(1P), c1(1P), ηc(2S), c1(3872)] exchanges in the t-channel diagram. The values of the coupling constants are mostly determined by the radiative decays of the J/ meson or the relevant charmonium mesons. The final J/-N interaction is required by the unitarity condition and is described by the gluon-exchange and direct J/ N coupling terms. The parameters of the Hamiltonian are determined by the latest GlueX and J/-007 experiments at the Jefferson Laboratory (JLab). We find that η(548) and η'(958) light mesons give the most significant contribution to γ p J/ p among the meson-exchange terms.Meanwhile, the effect of charmonium mesons turns out to be small compared to that of light mesons.It turns out that the contribution of the FSI term is about 1 - 2 orders of magnitude smaller than that of the Born term and is significant near the threshold when the Yukawa form is used as for the charmonium-nucleon potential. The resulting total and t-dependent differential cross sections provide good agreement with the JLab data. The angle-dependent data with high precision near the very threshold (Eγ ≤slant 8.9 GeV) are strongly desired to pin down the role of the FSI term more properly.
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