Emergence of the exotic bottomoniumlike state Y(10650) and support from Belle and Belle II data

Abstract

Near-threshold exotic hadrons are usually associated with S-wave hadron-hadron dynamics, while higher partial waves are expected to be strongly suppressed by the centrifugal barrier. We show that this expectation can be overturned in the bottomonium sector. In a coupled-channel meson exchange framework combined with the complex scaling method, we find a JPC=1-- pole, denoted as Y(10650), generated dominantly by the P-wave B* B* interaction and located close to the B* B* threshold. This pole naturally accounts for the anomalous enhancement observed just above the opening of the B* B* threshold in e+e- B* B*. Once its production strength is fixed by this threshold enhancement, the corresponding cross sections of σ[e+e- Y(10650) B B*] are predicted by the pole residues and phase-space factors, giving a characteristic dip-or-peak structure consistent with the available Belle (II) data. We further study the hidden-bottom transition Y(10650) Υ(2S)η through a near-threshold B* B* loop mechanism. The resulting O(10100~keV) width for Y(10650) Υ(2S)η is sufficient to account for the corresponding cross sections measured by Belle II. The simultaneous appearance of this state in open- and hidden-bottom channels provides a direct experimental path to test a P-wave near-threshold mechanism and makes Y(10650) a strong candidate for the first neutral isoscalar exotic bottomoniumlike state in the spectral gap between Υ(4S) and Υ(5S).