Precise measurements of D0 K-+ν and D+ K0+ν decays

Abstract

Using e+e- collision data corresponding to an integrated luminosity of 20.3 fb-1, collected at the center-of-mass energy of 3.773 GeV with the BESIII detector, we present precise measurements of D0 K-+ν and D+ K0+ν (=e,μ) decays. The branching fractions of D0 K-e+νe, D0 K-μ+νμ, D+ K0e+νe, and D+ K0μ+νμ are measured to be (3.5480.006 stat0.017 syst) \%, (3.4450.007 stat0.017 syst) \%, (8.9280.025 stat0.050 syst) \%, and (8.7700.029 stat0.053 syst) \%, respectively. The partial decay rates of these four decays are measured with improved precision, and their forward-backward asymmetries are determined for the first time. By performing a simultaneous fit to the measured partial decay rates and the forward-backward asymmetries of D K+ν, a search for a possible scalar current contribution in the c s+ν transition is performed. The results are Re(cSμ)=0.0170.008 stat0.006 syst and Im(cSμ)=(0.0770.011 stat0.009 syst), corresponding to a difference from the SM with a significance of 2.3σ. The product of the form factor f+(0) and the modulus of the c s Cabibbo-Kobayashi-Maskawa matrix element |Vcs| is determined to be f+(0)|Vcs|=0.71830.0007 stat0.0014 syst. With the inputs |Vcs|=0.973490.00016 from the Standard Model global fit or =0.74520.0031 from the lattice quantum chromodynamics calculation, we derive f+(0)=0.73830.0007 stat0.0014 syst and |Vcs|=0.96390.0009 stat0.0018 syst0.0040 LQCD.