B D0* and Bs Ds0* form factors from QCD light-cone sum rules

Abstract

We present the first application of QCD light-cone sum rules (LCSRs) with B(s)-meson distribution amplitudes to the B(s)\!\! D(s)0* form factors, where D(s)0* is a charmed scalar meson. We consider two scenarios for the D0* spectrum. In the first one, we follow the Particle Data Group and consider a single broad resonance D0*(2300). In the second one, we assume the existence of two scalar resonances, D0*(2105) and D0*(2451), as follows from a recent theoretically motivated analysis of B Dππ decays. The B\!\! D0* form factors are calculated in both scenarios, also taking into account the large total width of D0*(2300). Furthermore, we calculate the Bs\!\! Ds0* form factors, considering in this case only the one-resonance scenario with Ds0(2317). In this LCSRs calculation, the c-quark mass is kept finite and the s-quark mass is taken into account. We also include contributions of the two- and three-particle distribution amplitudes up to twist-four. Our predictions for semileptonic B\!\! D0* and Bs\!\! Ds0* branching ratios are compared with the available data and HQET-based predictions. As a byproduct, we also obtain the D0*- and Ds0*-meson decay constants and predict the lepton flavour universality ratios R(D0*) and R(Ds0*).