VMD, chiral loops, sigma-meson, and omega-rho mixing in omega-->pi^0 pi^0 gamma decay
arXiv:hep-ph/0302240 · doi:10.1103/PhysRevD.67.073008
Abstract
In an attempt to explain the latest experimental result about the branching ratio of $Ï\to Ï^0Ï^0γ$ decay we reexamine the decay mechanism of this decay in a phenomenological framework in which the contributions of VMD, chiral loops, $Ï$-meson intermediate state amplitudes and the effects of $Ï-Ï$ mixing are considered. We conclude that in order to obtain the experimental value of the branching ratio $B(Ï\to Ï^0Ï^0γ)$ $Ï$-meson amplitude which makes a substantial contribution should be included into the reaction mechanism and the effects of $Ï-Ï$ mixing should be taken into account. We also estimate the coupling constant $g_{ÏÏγ}$ as $g_{ÏÏγ}=0.11$ which is much smaller than the values suggested by light cone QCD sum rules calculations.
to be published in Phys. Rev. D