Phenomenological model for γγ* KK*(892) constraining the f1(1420) transition form factor

Abstract

We present a phenomenological study of the γγ* KK*(892) process by including the s-channel production of the η(1475) and f1(1420) resonances. The non-resonant channel via K- and K*-exchanges is investigated carefully by performing the Lorentz tensor decomposition and is constructed to yield a correct high-energy Regge behavior. The transition form factor of f1(1420) is adjusted to achieve a reasonable description of the existing L3 data in the f1(1420) resonance region. This model is intended to serve as a Monte Carlo generator for the analysis currently being performed by the BESIII Collaboration. We also estimate the polarized γγ* KK*(892) cross sections and demonstrate how to extract the transition form factors of f1(1420) from the polarized cross sections.