Ξb Ξ form factors from lattice QCD and Standard-Model predictions for Ξb Ξμ+μ- and Ξb Ξγ decays

Abstract

We present the first lattice QCD determination of the Ξb Ξ vector, axial-vector, and tensor form factors, which are relevant for the theory of rare decays including Ξb Ξ+- and Ξb Ξγ. The calculation is performed with 2+1 flavors of domain-wall fermions at three different lattice spacings and pion masses in the range from approximately 430 to 230 MeV. The bottom quark is implemented using an anisotropic clover action. Three-point functions with a wide range of source-sink separations and model averaging are used to extract the ground-state contributions. We fit the dependence of the form factors on the momentum transfer, the pion mass, and the lattice spacing using modified z expansions that account for subthreshold branch cuts, and apply dispersive bounds and asymptotic-behavior constraints to achieve controlled uncertainties in the full semileptonic kinematic region. Using our form factor results, we present Standard-Model predictions for the Ξb- Ξ- γ and Ξb- Ξ- μ+μ- branching fractions and two angular observables.