Nucleon Resonances with Hidden Charm in γ p reactions

Abstract

The excitations of nucleon resonances with hidden charm, N*cc, in the γ p reactions are investigated by using the predictions from the available meson-baryons (MB) coupled-channel models. For the γ\,p→ J/\, p process, we first calculate the Pomeron-exchange amplitudes with the parameters determined from fitting the available total cross section data up to invariant mass W=300 GeV. We then add the resonant amplitudes to examine the effects of N*cc excitations on the cross sections of γ\,p→ J/\, p in the near threshold energy region. The N*cc MB transition matrix elements are determined from the partial decay widths predicted by the meson-baryons coupled-channel models. The γ p N*cc transition amplitudes are calculated from the Vector Meson Dominance (VMD) model. The total γ p→ J/\, p amplitudes then depend on an off-shell form factor, parameterized as FV(q2)=4/(4 + (q2 - m2V)2) with =550 MeV. We then demonstrate that the N*cc can be most easily identified in the differential cross sections at large angles of outgoing J/ where the contribution from Pomeron-exchange becomes negligible. With the same VMD model and the same coupled-channel models of N*cc, we also calculate the resonant amplitudes for the γ\,p→ Vp→ N*cc → D0c+ (D*0c+) processes. By adding the non-resonant amplitudes due to the exchange of D*0 (D0), we then predict the cross sections of γ\,p→ D0c+(D*0+c) for additional experimental tests of the available meson-baryon coupled-channel models of N*cc.