Long Distance Contribution to s dγ and Implications for - -γ, Bs Bd*γ and b sγ
Abstract
We estimate the long distance (LD) contribution to the magnetic part of the s dγ transition using the Vector Meson Dominance approximation (V=,ω,i). We find that this contribution may be significantly larger than the short distance (SD) contribution to s dγ and could possibly saturate the present experimental upper bound on the - -γ decay rate, MAX- -γ 3.7×10-9eV. For the decay Bs B*dγ, which is driven by s dγ as well, we obtain an upper bound on the branching ratio BR(Bs Bd*γ)<3×10-8 from MAX- -γ. Barring the possibility that the Quantum Chromodynamics coefficient a2(ms) be much smaller than 1, MAX- -γ also implies the approximate relation 23 Σi g2_i(0)m2_i 12 g2(0)m2 + 16g2ω(0)m2ω. This relation agrees quantitatively with a recent independent estimate of the l.h.s. by Deshpande et al., confirming that the LD contributions to b sγ are small. We find that these amount to an increase of (42)\% in the magnitude of the b s γ transition amplitude, relative to the SD contribution alone.
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