Investigation of deuteron-like singly bottomed dibaryon resonances

Abstract

We perform a systematical investigation of the existence of the deuteron-like singly bottomed dibaryon resonance states with strangeness S=-1,~-3,~-5 in the chiral quark model. Two resonance states with strangeness S=-1 are obtained in the baryon-baryon scattering process. The first candidate is b in the b and Nb* scattering process, with the resonance energy 6974.22 MeV - 6975.37 MeV and the decay width 14.450 MeV, respectively; the other one is b* in the Nb and N'b scattering process, with the resonance energy 6990.69 MeV - 7008.37 MeV and the decay width 43.790 MeV, respectively. The Root Mean Square (RMS) radius calculation shows that the former tends to be in a compact structure, while the latter tends to be in a molecular structure. Both of these resonance states are worthy of experimental exploration. Furthermore, it should be emphasized that the effect of channel-coupling is of great importance in exploring exotic hadron states, and investigating the scattering process may serve as an effective approach to identifying genuine resonances.