Revisiting the P-wave charmonium radiative decays hc→γη() with relativistic corrections

Abstract

The P-wave charmonium decays hc→γη() are revisited by taking into account relativistic corrections. The decay amplitudes are derived in the Bethe-Salpeter formalism, in which the involved one-loop integrals are evaluated analytically. Intriguingly, from both the quark-antiquark content and the gluonic content of η(), the relativistic corrections make significant contributions to the decay rates of hc→γη(). By comparison with the leading-order contributions from the quark-antiquark content (one-loop level), the ones from the gluonic content (tree level) are also important, which is compatible with the conclusion obtained without relativistic corrections. Usually, for η production processes, the predicted branching ratios are sensitive to the angle of η-η mixing. As an illustration, using the Feldmann-Kroll-Stech result about the mixing angle φ=39.31.0 as input, we find that the predicted ratio Rhc=B(hc→γη)/B(hc→γη) is much smaller than the experiment measurement. While, with φ=33.50.9 extracted from the asymptotic limit of the γγ-η transition form factor, we obtain Rhc=30.3\% in consistent with Rhcexp=(30.711.38.7)\%. As a cross-check, the mixing angle φ=33.82.5 is extracted by employing the ratio Rhc, and a brief discussion on the difference in the determinations of φ is given.