The leptonic widths of high -resonances in unitary coupled-channel model

Abstract

The leptonic widths of high -resonances are calculated in a coupled-channel model with unitary inelasticity, where analytical expressions for mixing angles between (n+1)\,3S1 and n\,3D1 states and probabilities Zi of the c c component are derived. Since these factors depend on energy (mass), different values of mixing angles θ((4040))=27.7 and θ((4160))=29.5, Z1\,((4040))=0.76, and Z2\,((4160))=0.62 are obtained. It gives the leptonic widths ee((4040))=Z1\, 1.17=0.89~keV, ee((4160))=Z2\, 0.76=0.47~keV in good agreement with experiment. For (4415) the leptonic width ee((4415))=~0.55~keV is calculated, while for the missing resonance (4510) we predict M((4500))=(4515 5)~MeV and ee((4510)) 0.50~keV.