Analysis of the D+ --> K- pi+ e+ nue decay channel

Abstract

Using 347.5 fb-1 of data recorded by the BABAR detector at the PEP-II electron-positron collider, 244*103 signal events for the D+ --> K- pi+ e+ nue decay channel are analyzed. This decay mode is dominated by the K*(892)0 contribution. We determine the K*(892)0 parameters: mK*(892)0=(895.4 +- 0.2 +- 0.2) MeV/c2, 0K*(892)0=(46.5 +- 0.3 +- 0.2) MeV/c2 and the Blatt-Weisskopf parameter $rBW=2.1 +- 0.5 +- 0.5 (GeV/c)-1 where the first uncertainty comes from statistics and the second from systematic uncertainties. We also measure the parameters defining the corresponding hadronic form factors at q2=0 (rV = V(0) / A1(0)=1.463 +- 0.017 +- 0.031, r2 = A2(0) / A1(0) = 0.801 +- 0.020 +- 0.020) and the value of the axial-vector pole mass parameterizing the q2 variation of A1 and A2: mA=(2.63 +- 0.10 +- 0.13) GeV/c2. The S-wave fraction is equal to (5.79 +- 0.16 +- 0.15)%. Other signal components correspond to fractions below 1%. Using the D+ --> K- pi+ pi+ channel as a normalization, we measure the D+ semileptonic branching fraction: BR(D+ --> K- pi+ e+ nue) = (4.04 +- 0.03 +- 0.04 +- 0.09) × 10-2 where the third uncertainty comes from external inputs. We then obtain the value of the hadronic form factor A1 at q2=0: A1(0) = 0.6226 +- 0.0056 +- 0.0065 +- 0.0074. Fixing the P-wave parameters we measure the phase of the S-wave for several values of the Kpi mass. These results confirm those obtained with Kpi production at small momentum transfer in fixed target experiments.