Abstract
The structure of low-lying states in odd-mass N=83 isotones (135≤A≤151) is investigated in terms of a model in which one neutron-quasiparticle is coupled to quadrupolar and octupolar core-vibrations. Energy levels and spectroscopic factors are calculated and compared with experimental data. Nuclear Structure: 135 Te , 137 Xe , 139 Ba , 141 Ce , 143 Nd , 145 Sm , 147 Gd , 149 Dy , and 151 Er ; calculated levels J, π, and S. Quasiparticle-phonon coupling model.
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