Discovery of the doubly charmed Tcc+ state implies a triply charmed Hccc hexaquark state

Abstract

The doubly charmed exotic state Tcc recently discovered by the LHCb Collaboration could well be a DD* molecular state long predicted in various theoretical models, in particular, the DD* isoscalar axial vector molecular state predicted in the one-boson-exchange model. In this work, we study the DDD* system in the Gaussian Expansion Method with the DD* interaction derived from the one-boson-exchange model and constrained by the precise binding energy of 27363 keV of Tcc with respect to the D*+D0 threshold. We show the existence of a DDD* state with a binding energy of a few hundred keV and spin-parity 1-. Its main decay modes are DDDπ and DDDγ. The existence of such a state could in principle be confirmed with the upcoming LHC data and will unambiguously determine the nature of the Tcc+ state and of the many exotic state of similar kind, thus deepening our understanding of the non-perturbative strong interaction.