Abstract
Two new negative-parity and two new positive-parity decay sequences are established to high spin for 161Lu 90. The resulting systematics of the routhians, alignments, and B(M1)/ B(E2) ratios indicate that 161Lu has both a smaller and less stable quadrupole deformation than the lighter N = 90 isotones and the heavier lutetium isotopes. At low spin, the data are consistent with a sizeable negative γ deformation. Above the band crossing associated with the excitation of a pair of i 3 2 quasineutrons, the evidence for γ deformation disappears; however, the configuration-dependent B(M1)/ B(E2) ratios indicate that the nuclear shape may not be completely stable. The systematics of the band crossings based on the excitation of a pair of h 1 2 quasiprotons observed at higher spins in 161Lu and other odd- and even- Z, N = 90 isotones provides the first experimental evidence from high-spin data for proton quadrupole pair correlations.
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