Systematic study on production of hidden-bottom pentaquark via γ p and π -p scatterings

Abstract

The production of hidden-bottom pentaquark Pb states via γ p and π -p scatterings is studied within an effective Lagrangian approach and the vector-meson-dominance mechnism. For the Pb production in the process γ p→ p, the dipole Pomeron model is employed to calculate the background contribution, and the experimental data can be well described. For the process π -p→ n, the Reggeized t-channel with π exchange is considered as the main background for the Pb production. Near the threshold, two-peak structure from the states Pb (11080) and Pb(11125) can be observed if energy bin width is chosen as 0.01 GeV, and the same result is obtained in the π -p scattering. Moreover, by taking the branching ratio of Br[Pb→ π N] 0.05\%, the numerical result shows that the average value of cross section from the Pb(11080) state produced in the γ p or π -p scattering reaches at least 0.1 nb with a bin of 0.1 GeV. Even if we reduce the branching ratio of the Pb state into π N channel by one order, the theoretical average of the cross section from Pb(11080) production in π -p scattering can reach the order of 0.01 nb with a bin of 0.1 GeV, which means that the signal can still be clearly distinguished from the background. The experimental measurements and studies on the hidden-bottom pentaquark Pb state production in the γ p or π -p scattering near-threshold energy region around W 11 GeV are strongly suggested, which are accessible at COMPASS and JPARC. Particularly, the result of the photoproduction suggests that it is very promising to observe the hidden-bottom pentaquark at proposed EicC facility in China.