Measurement of the D0 π-e+ branching fraction, form factor and implications for Vub

Abstract

In this talk results of the study of the D0 π- e+ decay channel, recorded by the BaBar detector at the c.m. energy close to 10.6 GeV, are reported. The branching fraction of this channel is measured relative to the D0 K- π+ decay. The hadronic form factor, f+,Dπ(q2), function of q2, the four momentum transfer squared between the D and the π mesons, is compared to various theoretical predictions, and the normalization Vcd × f+,Dπ(q2=0) is extracted from a fit to data. Results are compared with Lattice QCD calculations. A new multipole model is applied which makes use of present information of resonant states contributing to the form factor. With the understanding of the f+,Dπ(q2) form factor, and provided the relation between the D0 π- e+ and B0 π- e+ decay widths at the same pion energy, the CKM matrix element Vub is determined and compared to recent measurements. This method of extracting Vub will become competitive with new Lattice QCD calculations of the ratio of form factors.