Study of a possibility of observation of hidden-bottom pentaquark resonances in bottomonium photoproduction on protons and nuclei near threshold

Abstract

We study the (1S) meson photoproduction on protons and nuclei at the near-threshold center-of-mass energies below 11.4 GeV (or at the corresponding photon laboratory energies Eγ below 68.8 GeV). We calculate the absolute excitation functions for the non-resonant and resonant photoproduction of (1S) mesons off protons at incident photon laboratory energies of 63--68 GeV by accounting for direct (γp (1S)p) and two-step (γp P+b(11080,11125,11130) (1S)p) (1S) production channels within different scenarios for the non-resonant total cross section of elementary reaction γp (1S)p and for branching ratios of the decays P+b(11080,11125,11130) (1S)p. We also calculate an analogous functions for photoproduction of (1S) mesons on 12C and 208Pb target nuclei in the near-threshold center-of-mass beam energy region of 9.0--11.4 GeV by considering respective incoherent direct (γN (1S)N) and two-step (γp P+b(11080,11125,11130) (1S)p, γn P0b(11080,11125,11130) (1S)n) (1S) production processes within a nuclear spectral function approach. We show that a detailed scan of the (1S) total photoproduction cross section on a proton and nuclear targets in the near-threshold energy region in future high-precision experiments at the proposed high-luminosity electron-ion colliders EIC and EicC in the U.S. and China should give a definite result for or against the existence of the non-strange hidden-bottom pentaquark states Pbi+ and Pbi0 (i=1, 2, 3) as well as clarify their decay rates.