Decays of (10860) and (10753) into ωbJ

Abstract

In this paper, we model (10753) as a 4S-3D bottomonium mixture and (10860) as a 5S-4D mixture, and predict the properties of a new bottomonium state, (10950), as the mixing partner of (10860). The mixing angles are derived from dielectron decay widths and mass shifts of these bottomonia. We consider open-bottom meson loops in the decays of the D-wave bottomonium components, based on a nonrelativistic effective field theory power counting. We show that the S-D mixing scheme is consistent with the experimental data of the decays of (10860) into ωbJ (J=0,1,2) and (10753) into ωbJ (J=1,2). Predictions for the dielectron widths and partial decay widths into bJω for (10753) and (10950) are presented.