Implications for the Delta A(FB) anomaly in (B)over-bar(0) -> D++ l(-)(nu)over-bar using a new Monte Carlo event generator

Recent experimental results in B physics from Belle, BABAR, and LHCb suggest new physics (NP) in the weak b-c charged-current processes. Here we focus specifically on the decay modes B over bar 0-D+ e-nu over bar with e 1/4 e and mu. The world averages of the ratios RD and R&D currently differ from the Standard Model (SM) predictions by 3.4 sigma while recently a new anomaly has been observed in the forward-backward asymmetry measurement, AFB, in B over bar 0-D+ mu- nu over bar decay. It is found that Delta AFB 1/4 AFBoB-D &mu nu + - AFBoB-D & e nu + is around 4.1 sigma away from the SM prediction in an analysis of 2019 Belle data. In this work we explore possible solutions to the Delta AFB anomaly and point out correlated NP signals in other angular observables. These correlations between angular observables must be present in the case of beyond the Standard Model physics. We stress the importance of Delta type observables that are obtained by taking the difference of the observable for the muon and the electron mode. These quantities cancel form-factor uncertainties in the SM and allow for clean tests of NP. These intriguing results also suggest an urgent need for improved simulation and analysis techniques in B over bar 0-D+ e-nu over bar decays. Here we also describe a new Monte Carlo event generator tool based on EVTGEN that we developed to allow simulation of the NP signatures in B over bar 0-D+ e-nu, which arise due to the interference between the SM and NP amplitudes. We then discuss prospects for improved observables sensitive to NP couplings with 1, 5, 50, and 250 ab(-1) of Belle II data, which seem to be ideally suited for this class of measurements.