Discovering the D0(2100) in B semileptonic decays

Abstract

The mass and width of the lightest scalar open-charm state listed in the Review of Particle Physics, the D0(2300), are in puzzling tension with predictions from unitarized chiral perturbation theory (UChPT) and lattice QCD, which favor a lighter state at around 2100 MeV. However, to date, no direct experimental evidence for this lighter state exists. In an effort to facilitate a direct observation, we introduce angular asymmetries of B→ D π decays that allow for a direct extraction of the Dπ S-wave phase shift and discuss a novel measurement strategy for the Belle II experiment. We conduct a sensitivity study, finding that the Belle II experiment can determine the pole location with sufficient precision to firmly establish the D0(2100) using the currently available data set. We also investigate the possibility and necessary statistics of measuring the Dπ isospin 1/2 scattering length with an accuracy sufficient to distinguish between the predictions from both UChPT and lattice QCD and the measurement by ALICE using femtoscopy.