The Bs μ+μ-γ decay rate at large q2 from lattice QCD

Abstract

We determine, by means of lattice QCD calculations, the local form factors describing the Bs μ+μ-γ decay. For this analysis we make use of the gauge configurations produced by the ETM Collaboration with Nf=2+1+1 flavour of Wilson-Clover twisted-mass fermions at maximal twist. To obtain the Bs meson form-factors, we perform simulations for several heavy-strange meson masses mHs in the range mHs ∈ [ mDs, 2 mDs ], and extrapolate to the physical Bs meson point mBs 5.367~ GeV making use of the HQET scaling laws. We cover the region of large di-muon invariant masses q2 > 4.16\, GeV, and use our results to determine the branching fraction for Bs μ+μ-γ, which has been recently measured by LHCb in the region q2 > 4.9\, GeV. The largest contribution to the uncertainty in the partial branching fractions at values of q2 < 4.8\, GeV is now due to resonance and other long-distance effects, including those from "charming penguins", which we estimate by summing over the contributions from the JP=1- charmonium resonances.