Precise measurement of the form factors in D0→ K*(892)-+ and observation of D0→ K2*(1430)-+_
Abstract
We report a study of the semileptonic decays D0 → K0π-+ (where =e,~μ) based on a sample of 20.3~fb-1 of e+e- annihilation data collected at a center-of-mass energy of 3.773~GeV with the BESIII detector at the BEPCII collider. Based on an investigation of the decay dynamics in D0 → K0π-+ decays, a D-wave component of D0→ K2*(1430)-+ is observed for the first time with a statistical significance of 8.0σ, in addition to the dominant K*(892)- and S-wave components. The D-wave component is determined to account for (0.092 0.028 stat 0.018 syst)\% of the total decay rate. The branching fractions of the dominant K*(892)- components are measured as B(D0→ K*(892)-e+e) = (2.043 0.018 stat 0.012 syst)\% and B(D0→ K*(892)-μ+μ) = (1.964 0.018 stat 0.012 syst)\%, which are the most precise measurements to date and represent significant improvements over the previous world averages. The hadronic form-factor parameters are measured to be rV = V(0)/A1(0) = 1.444 0.026 stat 0.010 syst, r2 = A2(0)/A1(0) = 0.752 0.020 stat 0.004 syst, and A1(0)=0.6180.002 stat 0.004 syst, where V(0) is the vector form factor and A1,2(0) are the axial-vector form factors evaluated at q2=0. This is the most precise determination of the form-factor parameters to date measured in a D→ K*(892) transition. In addition, we report the first model-independent measurement of the S-wave phase shift in the hadronic K0π- system.
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