Prospective analysis of CKM element |Vcd| and D+-meson decay constant from leptonic decays D+ +

Abstract

The leptonic decay of D+-meson has attracted significant interest due to its unique characteristics. In this paper, we carry out an investigation into the D+-meson leptonic decays D+ + with =(e,μ,τ) by employing the QCD sum rules approach. In which the D+-meson decay constant fD+ is an important input parameter in the process. To enhance the accuracy of our calculations for fD+, we consider the quark propagator and vertex up to dimension-six within the framework of background field theory. Consequently, we obtain the QCD sum rule expression for fD+ up to dimension-six condensates, yielding fD+=203.01.5~MeV. Our results are in good agreement with BESIII measurements and theoretical predictions. We also present the integrated decay widths for the D+-meson in three channels (D+ e+e)=(5.263-0.075+0.076)×10-21~GeV, (D+ μ+μ)=(2.236-0.032+0.032)×10-16~GeV and (D+ τ+τ)=(5.958-0.085+0.086)×10-16~GeV. Accordingly, we compute the branching fraction B(D++) with the electron, muon and tau channels, which are B(D+ e+e)=(8.260-0.118+0.119)×10-9, B(D+μ+μ)=(3.508-0.050+0.051)×10-4 and B(D+τ+τ)=(0.935-0.013+0.013)×10-3. Furthermore, we present our prediction for the CKM matrix element |Vcd| using the branching fraction B(D+μ+μ) obtained from BESIII Collaboration, yielding |Vcd|=0.227-0.001+0.002.

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