Predicting the Ds(*) Ds(*) bound states as the partners of X(3872)

Abstract

In this work, we investigate the SU(3) flavor symmetry, heavy quark spin symmetry and their breaking effects in the di-meson systems. We prove the existence of the [Ds*Ds*]0++, [Ds*Ds/DsDs*]1+-, and [Ds*Ds*]1+- bound states as the consequence of two prerequisites in the SU(3) flavor symmetry and heavy quark spin symmetry. The first prerequisite, the X(3872) as the weakly D*D/D D* bound state is supported by its mass and decay branching ratios. The second prerequisite, the existence of the [DsDs]0++ bound state is supported by the lattice QCD calculation [arXiv:2011.02542(hep-lat)] and the observation of c0(3930) by the LHCb Collaboration[Phys.Rev.Lett.125,242001, Phys.Rev.D102,112003]. We hope the future experimental analyses can search for these bound states in the B D(s)(*)D(*)(s)h processes (h denotes the light hadrons). The [Ds*Ds*]0++ bound state is also expected to be reconstructed in the J/ φ final state in the B J/ φ K decay.