Bottomonium-like tetraquarks in a chiral quark model

Abstract

The low-lying bottomonium-like tetraquarks bbqq (q=u,\,d,\,s) with spin-parity JP=0+, 1+ and 2+, and isospin I=0,\,1 or 12, are systematically investigated within the theoretical framework of real- and complex-scaling range of a chiral quark model, which has already been successfully applied in analysis of several multiquark systems. A complete four-body S-wave function, which includes meson-meson, diquark-antidiquark and K-type arrangements of quarks, along with all possible color configurations are considered. In the bbqq (q=u,\,d) tetraquark system, we found resonance states of B(*) B(*), ω, and ηb nature with all possible I(JP) quantum numbers. Their masses are generally located in the energy range 11.0-11.3 GeV and their widths are less than 10 MeV. In addition, extremely narrow resonances, with two-meson strong decay widths less than 1.5 MeV, are obtained in both bbus and bbss tetraquark systems. Particularly, four radial excitations of K* and ηb K* are found at 11.1 GeV in JP=0+, 1+ and 2+ channels of bbus system. One (1S)φ(2S) resonance state is obtained at 11.28 GeV in the JP=1+ sector.