An approach to calculation of mass spectra and two-photon decays of cc mesons in the framework of Bethe-Salpeter Equation

Abstract

In this work we calculate the mass spectrum of charmonium for 1P,...,3P states of 0++ , 1++, as well as for 1S,...,4S states of 0-+, and 1S, ...,5D states of 1-- along with the two-photon decay widths of ground and first excited state of 0++ quarkonia for the process, O++→ γγ in the framework of a QCD motivated Bethe-Salpeter Equation. In this 4× 4 BSE framework, the coupled Salpeter equations are first shown to decouple for the confining part of interaction, under heavy-quark approximation, and analyically solved, and later the one-gluon-exchange interaction is perturbatively incorporated leading to mass spectral equations for various quarkonia. The analytic forms of wave functions obtained are used for calculation of two-photon decay widths of c0. Our results are in reasonable agreement with data (where ever available) and other models.