Calculation of the two-photon decay width of the [formula omitted] scalar meson

Abstract

The applicability of the quasi-static approximation for calculating the two-photon annihilation rate of the scalar f0(980) meson envisaged as a KK¯ molecule is critically re-examined. It is shown that the validity of this approximation depends on the detailed interplay between the momentum dependence of the annihilation amplitude and the momentum space transform of the bound state wavefunction of the annihilating pair. The approximation becomes invalid when these two scales of variation are similar. An improved method of calculation based on the inclusion of electromagnetic corrections to the kernel of the Bethe–Salpeter equation for the interacting KK¯ pair is outlined to cover this case and applied to re-evaluate the two-photon decay width for f0(980) in a one-boson exchange model for the interkaon interaction. The corrections are significant and result in a much better agreement with experiment.