Pomeron, nucleon-resonance, and (0+,0-,1+)-meson contributions in φ-meson photoproduction

Abstract

We investigate the reaction mechanism of the φ-meson photoproduction off the proton target, i.e., γ pφ p, up to s=2.8 GeV. For this purpose, we employ an effective Lagrangian approach in the tree-level Born approximation, and we employ various experimental and theoretical inputs. As a theoretical setup, the vectorlike Pomeron (C=+1) is taken into account as a parameterized two-gluon exchange contribution. We also consider f1(1285) axial-vector-meson, (π,η) pseudoscalar-meson, and (a0,f0) scalar-meson exchanges in the t channel, in addition to the experimentally confirmed nucleon resonances, such as N*(2000,5/2+) and N*(2300,1/2+), for the direct φ-meson radiations in the s and u channels. We provide numerical results for the total and differential cross sections as well as the spin-density matrices in the Gottfried-Jackson, Adair, and helicity frames. We observe that, together with the universally accepted pomeron contribution, the considered meson and nucleon-resonance contributions play significant roles in reproducing the experimental data for the forward and backward φ-meson scattering-angle regions, respectively, indicating the nontrivial interferences between mesonic and baryonic contributions.