Triple-charm molecular states composed of D*D*D and D*D*D*

Abstract

Inspired by the newly observed Tcc+ state, we systematically investigate the S-wave triple-charm molecular states composed of D*D*D and D*D*D*. We employ the one-boson-exchange model to derive the interactions between D(D*) and D* and solve the three-body Schr\"odinger equations with the Gaussian expansion method. The S-D mixing and coupled channel effects are carefully assessed in our study. Our results show that the I(JP)=12(0-,1-,2-) D*D*D and I(JP)=12(0-,1-,2-,3-) D*D*D* systems could form bound states, which can be viewed as three-body hadronic molecules. We present not only the binding energies of the three-body bound states, but also the root-mean-square radii of D -D* and D*-D*, which further corroborate the molecular nature of these states. These predictions could be tested in the future at LHC or HL-LHC.