Absorption of 1P-wave heavy charmonium χc1(1P) in nuclei

Abstract

We study the inclusive heavy charmonium χc1(1P) photoproduction from nuclei near the kinematic threshold within the collision model, based on the nuclear spectral function, for incoherent direct photon--nucleon charmonium creation processes. The model accounts for the final χc1(1P) absorption in nuclear medium, target nucleon binding and Fermi motion. We calculate the absolute and relative excitation functions on 12C and 184W target nuclei at near-threshold photon beam energies of 8.25--16.0 GeV, the absolute momentum differential cross sections and ratios of them for its production off these target nuclei at laboratory polar angles of 0--10 and for photon energy of 13 GeV as well as the A-dependences of the transparency ratios for the χc1(1P) at photon energy of 13 GeV within the different scenarios for its absorption cross section in nuclei. We demonstrate that the absolute and relative observables considered reveal distinct sensitivity to these scenarios. Therefore, they might be useful for the determination of this cross section from the comparison of them with the experimental data from the future experiments at the upgraded up to 22 GeV CEBAF facility, which is of crucial importance in understanding of charmonium production and suppression in high-energy heavy--ion collisions in a search for the quark-gluon plasma.