Abstract
The negative-parity states in 132Ba are studied in terms of the pair-truncated shell model. The model reproduces experimental energy levels of the ΔI = 1 band with the ν(h211/2)⊗π(h11/2g7/2) configuration. From analysis of its structure, it is found that two angular momentum vectors representing valence neutrons and protons gradually close as total spin increases.
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