Two-gluon production of φ and η' mesons in proton-proton collisions at high energies

Abstract

We discuss gluon-gluon mechanisms for production of mesons with hidden strangeness, such as η' and φ meson, in proton-proton collisions at large energies. The g* g* η' and g* g* φ g mechanisms are considered only and the corresponding cross sections are calculated in the kt-factorization approach. The Fγ* γ* η' and Fg* g* η' form factors are calculated from quark-antiquark η' light-cone wave function including quark/antiquark transverse momenta. The result for two-photon transition form factor demonstrates that higher twists may survive even to large photon virtualities. The result is compared with the result of a recent leading-twist NLO analysis which uses phenomenological distribution amplitudes fitted to exclusive production of η' in e+ e- e+ e- η' reaction. We calculate transverse momentum distributions of both η' and φ mesons in proton-proton collisions for RHIC and LHC energies. The results are compared to experimental data whenever available. The results of the Lund string model are shown for comparison for η' production at LHC energies. It seems that the two-gluon fusion is not the dominant mechanism for both φ and η' production, although the situation for η', especially at larger energies, is less clear due to lack of experimental data.