Searching the possibility of a0(1450) scalar state being a diquark structure via charmed meson semileptonic decays

Abstract

The internal structure of light scalar state a0(1450) has not been definitively determined, it may consist of multiple possible states. Among them, it has the possibility of being regarded as a diquark state. Based on this possibility, we use QCD light-cone sum rules to study the semileptonic decay process D a0(1450) with =(e, μ) to verify its rationality. Firstly, we construct two types of twist-2 light-cone distribution amplitude schemes based on the light-cone harmonic oscillator model, and present their moments n |μ and Gegenbauer moments an(μ) at μ0=1~ GeV and μk= 1.4~ GeV for n=(1,3,5). In the large recoil region, we obtain the transition form factors (TFFs): f+ (S1)(0) = 0.836-0.116+0.119, f+ (S2)(0)=0.767-0.105+0.106 and f-(0)=0.630-0.077+0.078. A simplified series expansion z(q2, t) is used to extrapolate TFFs to the entire physical q2-region. For q2=10-5 ~ GeV2, we compute angular distribution of the differential decay width d/dθ over the range θ ∈ [-1,1]. Subsequently, we obtain differential decay widths and branching fractions for D0 a0(1450)- + and D- a0(1450)0 - , where the branching fractions being of order 10-6. Finally, we analyze three angular observables for the semileptonic decay process D- a0(1450)0 - , the forward-backward asymmetry A FB, lepton polarization asymmetry Aλ and q2-differential flat term~ F H.