Light-front approach to axial-vector quarkonium γ* γ* form factors

Abstract

In this work, we perform a detailed study of transition form factors for axial-vector meson production via the two-photon fusion process γ* γ* 1++, with space-like virtual photons in the initial state and a P-wave axial-vector quarkonium in the final state. In this analysis, we employ the formalism of light-front quarkonium wave functions obtained from a solution of the Schr\"odinger equation for a selection of interquark potentials for Q Q interaction. We found the helicity structure and covariant decomposition of the matrix elements that can be generically applied for any q q axial-vector meson γ* γ* 1++ transition, while our numerical results are given for the phenomenologically relevant charmonium c1 state. We present the helicity form factors as functions of both photon virtualities. We also obtain, that Q F LT(Q2,0)/F TT(Q2,0) = const.