B resonance form factors from B ππ in lattice QCD

Abstract

The decay B is an attractive process for determining the magnitude of the smallest CKM matrix element, |Vub|, and can provide new insights into the origin of the long-standing exclusive-inclusive discrepancy in determinations of this Standard-Model parameter. This requires a nonperturbative QCD calculation of the B form factors V, A0, A1, and A12. The unstable nature of the resonance has prevented precise lattice QCD calculations of these form factors to date. Here, we present the first lattice QCD calculation of the B form factors in which the is treated properly as a resonance in P-wave π π scattering. To this end, we use the Lellouch-L\"uscher finite-volume formalism to compute the B π π form factors as a function of both momentum transfer and π π invariant mass, and then analytically continue to the resonance pole. This calculation is performed with 2+1 dynamical quark flavors at a pion mass of approximately 320 MeV, and demonstrates a clear path toward results at the physical point.