Semileptonic Charm Decays: mini review

Abstract

One important task in the field of flavor physics is to over-constrain the CKM matrix. To best extract CKM matrix elements, we need inputs from both experimental data and theoretical calculations. Latest knowledge about the CKM matrix shows our understanding about sin2β is the best thanks to clean theory and large statistics from experiments. In contrast, our understanding of both mixing and |Vub| have limitations from theoretical predictions. In order to extract the value of |Vub| from the branching fraction measurement, we need information on the hadronic form factor f+(q2). Our best understanding about f+(q2) is from lattice QCD calculations. To validate improved lattice QCD calculations for the form factor in semi-leptonic B decays, we can use semi-leptonic D decays as a test and calibration. Since the CKM matrix elements |Vcs(d)| can be obtained precisely from unitarity, we have a reliable method to check the lattice QCD calculations. The experimental results of D semi-leptonic decays can be summarized in two main categories: the exclusive decays and the inclusive decays. Latest measurements from the exclusive semi-leptonic D decays are discussed here.