Near-threshold structures in the Ds+Ds- mass distribution of the decay B+→ Ds+Ds-K+

Abstract

Two near-threshold peaking structures with spin-parities JPC =0++ were recently discovered by the LHCb Collaboration in the Ds+Ds- invariant mass distribution of the decay B+→ Ds+Ds-K+. The first of them is the resonance X(3960), whereas the second one, X0(4140), is a structure with the mass around 4140~MeV. To explore their natures and model them, we study the hadronic molecule M=Ds+Ds- and calculate its mass, current coupling, and width. The mass and current coupling of the molecule are extracted from the QCD two-point sum rule analyses by taking into account vacuum condensates up to dimension 10. To evaluate its full width, we consider the processes M Ds+Ds-, M ηcη(), and M J/φ. Partial widths of these decays are determined by the strong couplings gi, \ i=1,2,3,4 at vertices M Ds+Ds-, Mηc η(), and M J/φ. They are computed by means of the three-point sum rule method. Predictions for the mass m=(4117 85)~MeV and width M=(62 12)~MeV of the molecule M are compared with the corresponding LHCb data, and also with our results for the diquark-antidiquark state X=[cs][cs]. We argue that the structure X0(4140) may be interpreted as the hadronic molecule Ds+Ds-, whereas the resonance X(3960) can be identified with the tetraquark X.