On the possibility to observe higher n3D1 bottomonium states in the e+e- processes

Abstract

The possibility to observe new bottomonium states with JPC= 1-- in the region 10.7-11.1 GeV is discussed. The analysis of the di-electron widths shows that the (n+1)3S1 and n3D1 states (n≥ 3) may be mixed with a rather large mixing angle, θ30 and this effect provides the correct values of ee((10580)) and ee((11020)). On the other hand, the S-D mixing gives rise to an increase by two orders of magnitude of the di-electron widths of the mixed (n3D1) resonances (n=3,4,5), which originate from pure D-wave states. The value ee((3D))=0.095+0.028-0.025 keV is obtained, being only 3 times smaller than the di-electron width of (10580), while ee((5D)) 135 eV appears to be close to ee((11020)) and therefore this resonance may become manifest in the e+e- experiments. The mass differences between M(nD) and M((n+1)S) (n=4,5) are shown to be rather small, 50 10 MeV.