The D semileptonic and radiative decays within the light-cone sum rules

Abstract

The measured branching ratio of the D meson semileptonic decay D e+ e, which is based on the 0.82~ fb-1 CLEO data taken at the peak of (3770) resonance, disagrees with the traditional SVZ sum rules analysis by about three times. In the paper, we show that this discrepancy can be eliminated by applying the QCD light-cone sum rules (LCSR) approach to calculate the D transition form factors A1,2(q2) and V(q2). After extrapolating the LCSR predictions of these TFFs to whole q2-region, we obtain 1/|V cd|2 × (D e e) =(55.45+13.34-9.41)× 10-15~ GeV. Using the CKM matrix element and the D0(D+) lifetime from the Particle Data Group, we obtain B (D0 - e+ e) = (1.749+0.421-0.297 0.006)× 10-3 and B (D+ 0 e+ e) = (2.217+0.534-0.376 0.015)× 10-3, which agree with the CLEO measurements within errors. We also calculate the branching ratios of the two D meson radiative processes and obtain B(D0 0 γ)= (1.744+0.598-0.704)× 10-5 and B(D+ + γ) = (5.034+0.939-0.958)× 10-5, which also agree with the Belle measurements within errors. Thus we think the LCSR approach is applicable for dealing with the D meson decays.