Abstract
We have used cranking calculations, based on the total Routhian surface formalism, to investigate the medium spin structure (I<25ħ) of light tellurium isotopes with A≤122. Several energetically favored noncollective oblate (γ=+60°) states, based on the aligned π[(⊗ν[((] configuration (x=0,1, y=1-4), are found to coexist with weakly deformed collective structures. Particularly favored states are predicted for the even Te isotopes, while 39/ states are predicted for the odd Te isotopes. The theoretical results are compared to available experimental data.
- Received 28 June 1995
DOI:https://doi.org/10.1103/PhysRevC.52.2984
©1995 American Physical Society