Predictions for B K γ γ decays
Abstract
We present a phenomenological study of the rare double radiative decay B K γγ in the Standard Model (SM) and beyond. Using the operator product expansion (OPE) technique, we estimate the short-distance (SD) contribution to the decay amplitude in a region of the phase space which is around the point where all decay products have energy mb/3 in the rest frame of the B-meson. At lowest order in 1/Q, where Q is of order mb, the B K γγ matrix element is then expressed in terms of the usual B K form factors known from semileptonic rare decays. The integrated SD branching ratio in the SM in the OPE region turns out to be B(B K γ γ)SMOPE 1 × 10-9. We work out the di-photon invariant mass distribution with and without the resonant background through B K \ηc,c0\ Kγ γ. In the SM, the resonance contribution is dominant in the region of phase space where the OPE is valid. The present experimental upper limit on Bs τ+ τ- decays, which constrains the scalar/pseudoscalar Four-Fermi operators with τ+ τ-, leaves considerable room for new physics in the one-particle-irreducible contribution to B K γ γ decays. In this case, we find that the SD B K γ γ branching ratio can be enhanced by one order of magnitude with respect to its SM value and the SD contribution can lie outside of the resonance peaks.
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