Light-cone sum rules analysis of the semi-leptonic D+s f0(980)(π+π-)e+e decay incorporating f0(980) mixing state twist-2 distribution amplitudes

Abstract

The isospin-singlet scalar meson f0(980) is hypothesized to consist of two energy eigenstates, forming a mixture of 12(uu + dd) and ss. Building on this framework, we apply the QCD sum rules approach in the background field theory to compute the f0(980) decay constant, yielding ff0(μ0=1\,GeV) = 0.3860.009 \, GeV. Subsequently, we derive the first two -moments of the leading-twist light-cone distribution amplitude φ2;f0. Using QCD light-cone sum rules, we then calculate the D+s f0(980) transition form factor (TFF) f+(q2), obtaining f+(0) = 0.516+0.027-0.024 at the large-recoil point. We extend f+(q2) to the full physical region via a simplified series expansion parameterization, enabling calculations of the differential decay widths and the branching fraction B(D+s f0(980)( π+π-)e+e) = (1.783+0.227-0.189) × 10-3. Our theoretical predictions align well with the latest BESIII Collaboration measurements within reasonable errors.