Production of ηc(1S,2S) in e+ e- and pp collisions

Abstract

We derive the light-front wave function (LFWF) representation of the γ γ ηc (1S),ηc(2S) transition form factor F(Q21,Q22) for two virtual photons in the initial state. For the LFWF, we use different models obtained from the solution of the Schr\"odinger equation for a variety of cc potentials. We compare our results to the BaBar experimental data for the ηc(1S) transition form factor, for one real and one virtual photon. We observe that the onset of the asymptotic behaviour is strongly delayed and discuss applicability of the collinear and/or massless limit. In addition, we present a thorough analysis of ηc(1S,2S) quarkonia hadroproduction in k-factorisation in the framework of the light-front potential approach for the quarkonium wave function. The off-shell matrix elements for the g g ηc (1S,2S) vertices are derived. We discuss the importance of taking into account the gluon virtualities. We present the transverse momentum distributions of ηc for several models of the unintegrated gluon distributions. Our calculations are performed for four distinct parametrizations for the cc interaction potential consistent with the meson spectra. We compare our results for ηc(1S) to measurements by the LHCb collaboration and present predictions for ηc(2S) production.