The X0(2900) and its heavy quark spin partners in molecular picture

Abstract

The X0(2900) observed by the LHCb Collaboration recently in the D-K+ invariant mass of the B+ D+D-K+ process is the first exotic candidate with four different flavors, which opens a new era for the hadron community. Under the assumption that the X0(2900) is a I(JP)=0(0+) D*K* hadronic molecule, we extract the whole heavy-quark symmetry multiplet formed by the (D,D*) doublet and the K* meson. For the bound state case, there would be two additional I(JP)=0(1+) hadronic molecules associated with the DK* and D*K* channels as well as one additional I(JP)=0(2+) D*K* molecule. In the light quark limit, they are 36.66~MeV and 34.22~MeV below the DK* and D*K* thresholds, respectively, which are unambiguously fixed by the mass position of the X0(2900). For the virtual state case, there would be one additional I(JP)=0(1+) hadronic molecule strongly coupling to the DK* channel and one additional I(JP)=0(2+) D*K* molecule. Searching for these heavy quark spin partners will help shed light on the nature of the X0(2900).