Double-charm heptaquark states composed of two charmed mesons and one nucleon

Abstract

Inspired by the experimental discoveries of Tcc, c(2800), and c(2940) and the theoretical picture where they are DD*, DN, and D*N molecular candidates, we investigate the double charm heptaquark system of DD*N. We employ the one-boson-exchange model to deduce the pairwise D-D*, D-N, and D*-N potentials and then study the DD*N system with the Gaussian expansion method. We find two good hadronic molecular candidates with I(JP)=12(12-) and 12(32-) DD*N with only s-wave pairwise interactions. The conclusion remains unchanged even taking into account the S-D mixing and coupled channel effects. In addition to providing the binding energies, we also calculate the root-mean-square radii of the DD*N system, which further support the molecular nature of the predicted states. They can be searched for at the upcoming LHC run 3 and run 4.