Quadruply charmed baryons as heavy quark symmetry partners of the Ds0*(2317)

Abstract

Both unitary chiral theories and lattice QCD simulations show that the DK interaction is attractive and can form a bound state, namely, D*s0(2317). Assuming the validity of the heavy antiquark-diquark symmetry (HADS), the ccK interaction is the same as the DK interaction, which implies the existence of a ccK bound state with a binding energy of 49-64 MeV. In this work, we study whether a ccccK three-body system binds. The cccc interaction is described by exchanging π, σ, , and ω mesons, with the corresponding couplings related to those of the NN interaction via the quark model. We indeed find a ccccK bound state, with quantum numbers JP=0-, I=12, S=1 and C=4, and a binding energy of 80-118 MeV. It is interesting to note that this system is very similar to the well-known NNK system, which has been studied extensively both theoretically and experimentally. Within the same framework, we show the existence of a NNK state with a binding energy of 35-43 MeV, consistent with the results of other theoretical works and experimental data, which serves as a consistency check on the predicted ccccK bound state.