Probing the equivalence of chiral LCSRs in D π e e decays and extraction of |Vcd|

Abstract

In the paper, we have carried out research on the Dπ decay process. We employ two different currents to study the Dπ transition form factors (TFFs) by using the light-cone sum rule within the framework of chiral current approach. Firstly, we follow the right-handed and left-handed currents for the correlators to present the expression of the vector form factors upto next-leading-order and leading-order accuracy, respectively. Here the twist-2 and twist-3 light-cone distribution amplitudes are constructed by the light-cone harmonic oscillator model. After exploring the TFFs into the whole physical q2-region with the simplified z-series expansion, we obtain the branching fractions B(D0 π-e+e)I = 0.31-0.05+0.05, B(D+ π0e+e)I = 0.39-0.06+0.06, B(D0 π-e+e)II = 0.27-0.03+0.05, B(D+ π0e+e)II = 0.34-0.04+0.06, and extract the CKM matrix element |Vcd|I = ( 0.21+0.02-0.02 )× 10-2 as well as |Vcd|II = ( 0.23+0.02-0.02) × 10-2. To verify the credibility of our calculations, these results are further compared with existing findings in the literature, showing good agreement within uncertainties.

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