Insights into the exotic charged states Zb(10610) and Zb(10650) from their photoproduction off nuclei

Abstract

The possibility to study the nature of the famous charged bottomonium-like states Zb(10610) and Zb(10650), which is by far the best known, from their inclusive photoproduction off nuclei near the kinematic threshold is investigated within the collision model based on the nuclear spectral function. The model accounts for Zb(10610) and Zb(10650) production in direct photon--nucleon interactions as well as four different scenarios for their intrinsic configurations: compact tetraquarks, molecules of the two open-beauty mesons and two mixtures of both of them for each of Zb state. We calculate within these scenarios the absolute and relative excitation functions on 12C and 184W nuclei at photon energies of 61--90 GeV, the absolute momentum differential cross sections and ratios of them for their production off these target nuclei at laboratory polar angles of 0--5 and for photon energy of 75 GeV as well as the A-dependences of the transparency ratios for the Zb(10610) mesons at photon energy of 75 GeV. We show that the absolute and relative observables considered reveal distinct sensitivity to the Zb(10610) and Zb(10650) internal structures. Therefore, they might be useful for the determination of these structures from the comparison of them with the experimental data from the future high-precision experiments at the upcoming experimental facilities, such as the planned high-luminosity electron-ion colliders in the United States and China.