Prediction of an \varOmega_bbb\varOmega_bbb Dibaryon in the Extended One-Boson Exchange Model

Since Yukawa proposed that the pion is responsible for mediating the nucleon-nucleon interaction, meson exchanges have been widely used in understanding hadron-hadron interactions. The most studied mesons are the \sigma, \pi, \rho, and \omega, while other heavier mesons are often argued to be less relevant because they lead to short range interactions. However, whether the range of interactions is short or long should be judged with respect to the size of the system studied. We propose that one charmonium exchange is responsible for the formation of the \varOmega_ccc\varOmega_ccc dibaryon, recently predicted by lattice QCD simulations. The same approach can be extended to the strangeness and bottom sectors, leading to the prediction on the existence of \varOmega\varOmega and \varOmega_bbb\varOmega_bbb dibaryons, while the former is consistent with the existing lattice QCD results, the latter remains to checked. In addition, we show that the Coulomb interaction may break up the \varOmega_ccc\varOmega_ccc pair but not the \varOmega_bbb\varOmega_bbb and \varOmega\varOmega dibaryons.