Multi-quark matrix elements in the proton and three gluon exchange for exclusive ηc production in photon-proton diffractive scattering

Abstract

Exclusive production of a ηc pseudo-scalar meson in γ(*) + p ηc + p scattering at high energies involves a C-odd exchange in the t-channel. We formulate the description of this process within the high-energy framework of eikonal dipole scattering. We obtain expressions for the light-cone wave function of the ηc required in this framework as well as for the C-odd amplitudes due to exchange of a single photon, of a photon plus two gluons, and of three gluons. We relate these amplitudes to correlators of the + component of the quark current in the light-cone wave function of the proton. For high transverse momenta these correlators correspond to Generalized Parton Distributions (GPDs) given by diagrams where all exchanged gauge bosons attach to a single quark in the proton. Diagrams involving multi-quark matrix elements potentially sensitive to correlations, screen infrared singularities. Moreover, they are numerically important for configurations where the exchanged bosons nearly share the total momentum transfer. Using two simple models for the three quark Fock state of the proton at x0.1, we find that single photon exchange dominates for |t|<1.5~GeV2. Here, the quark GPD could be measured cleanly in γ(*) + p ηc + p via single photon exchange. For higher momentum transfer three gluon (`Odderon') exchange is dominant.