Semileptonic D Meson Decays D P/V/S+ with the SU(3) Flavor Symmetry/Breaking
Abstract
Many exclusive c d/s+~(=e,μ,τ) transitions have been well measured, and they can be used to test the theoretical calculations. Motivated by this, we study the D P/V/S+ decays induced by the c d/s+ transitions with the SU(3) flavor symmetry approach, where P denotes the pseudoscalar meson, V denotes the vector meson, and S denotes the scalar meson with a mass below 1 GeV. The different decay amplitudes of the D P+, D V+ or D S+ decays can be related by using the SU(3) flavor symmetry and by considering the SU(3) flavor breaking. Using the present data of D P/V/S+, we predict the not yet measured or not yet well measured processes in the D P/V/S+ decays. We find that the SU(3) flavor symmetry approach works well in the semileptonic D P/V+ decays. For the D S+ decays, only the decay D+s f0(980)e+e has been measured, the branching ratios of the D+s f0(980)e+e and D S(S P1P2)+ decays are used to constrain the nonperturbative parameters and then predict not yet measured D S+ decays, in addition, the two quark and the four quark scenarios for the light scalar mesons are analyzed. The SU(3) flavor symmetry predictions of the D S+ decays need to be further tested, and our predictions of the D S+ decays are useful for probing the structure of light scalar mesons. Our results in this work could be used to test the SU(3) flavor symmetry approach in the semileptonic D decays by the future experiments at BESIII, LHCb and BelleII.
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