Pion-induced production of hidden-charm pentaquarks Pc(4312),Pc(4440), and Pc(4457)

Abstract

The production of the hidden-charm pentaquarks Pc via pion-induced reaction on a proton target is investigated within an effective Lagrangian approach. Three experimentally observed states, Pc(4312), Pc(4440), and Pc(4457), are considered in the calculation, and the Reggeized t-channel meson exchange is considered as main background for the reaction π -p→ J/ n. The numerical results show that the experimental data of the total cross section of the reaction π-p→ J/ n at W 5 GeV can be well explained by contribution of the Reggeized t channel with reasonable cutoff. If the branching ratios Br[Pc→ J/ N] 3\% and Br[Pc→ π N] 0.05\% are taken, the average value of the cross section from the Pc(4312) contribution is about 1.2 nb/100 MeV, which is consistent with existing rude data at near-threshold energies. The results indicate that the branching ratios of the Pc states to the J/ N and π N should be small. The shape of differential cross sections shows that the Reggeized t-channel provides a sharp increase at extreme forward angles, while the differential cross sections from the Pc states contributions are relatively flat. High-precision experimental measurements on the reaction π -p→ J/ n at near-threshold energies are suggested to confirm the LHCb hidden-charm pentaquarks as genuine states, and such experiments are also helpful to understand the origin of these resonance structures.