Dielectron widths of the S-, D-vector bottomonium states

Abstract

The dielectron widths of (nS) (n=1,...,7) and vector decay constants are calculated using the Relativistic String Hamiltonian with a universal interaction. For (nS) (n=1,2,3) the dielectron widths and their ratios are obtained in full agreement with the latest CLEO data. For (10580) and (11020) a good agreement with experiment is reached only if the 4S--3D mixing (with a mixing angle θ=27 4) and 6S--5D mixing (with θ=40 5) are taken into account. The possibility to observe higher "mixed D-wave" resonances, (n 3D1) with n=3,4,5 is discussed. In particular, (≈ 11120), originating from the pure 5 3D1 state, can acquire a rather large dielectron width, 130 eV, so that this resonance may become manifest in the e+e- experiments. On the contrary, the widths of pure D-wave states are very small, ee(n3 D1) ≤ 2 eV.