Theoretical study on low-lying hidden-bottom and double-bottom tetraquark states

Abstract

We perform a theoretical study on the spectrum of the low-lying hidden-bottom (qqbb with q= u, d and s) and double-bottom (qqbb) tetraquark states within a nonrelativistic quark model, in which the instanton-induced interaction is taken as the residual spin-dependent hyperfine interaction between quarks. All the model parameters are fixed by fitting the spectrum of the ground hadron states. The numerical results indicate that masses of several Xqq, Zb, and Zbs tetraquark states are below and near thresholds of corresponding meson-meson channels, thus these states may form components of exotic meson states with reasonable probabilities. Especially, in present model, masses of several obtained states with quantum number IG(JP)=1+(1+) are close to Zb(10610), so one may expect these states to be non-negligible components of the experimentally observed Zb states. Concerning to the double-bottom tetraquark states, the present results are in general consistent with other previous works. Two possible stable Tbb states with quark content bbnn (n=u or d quark) lying at energies 10558 MeV and 10650 MeV are found, and one possible stable bbns state is found, whose energy is 10687 MeV.

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