Journal
PHYSICAL REVIEW C
Volume 76, Issue 2, Pages -Publisher
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevC.76.024306
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The experimental energy staggering in gamma bands of rare earths and actinides exhibits three distinct patterns as a function of angular momentum that are typical of well-deformed structural benchmarks: gamma-soft for nuclei situated between a vibrator and a deformed gamma-soft structure, axially symmetric for those between a vibrator and a rigid rotor, and triaxial gamma-rigid for nuclei between a vibrator and a rigid triaxial rotor. The three patterns are reproduced by appropriate special solutions of the Bohr Hamiltonian, as well as by interacting boson approximation calculations. A particular quantity called S(4), which is proportional to the displacement of the 3(gamma)(+) level relative to the average of the 2(gamma)(+) and 4(gamma)(+) levels, can vary in magnitude and sign for different shapes and is found to give a good indication of structure and the evolution of structure. A sudden change in the gamma-band staggering occurring between the vibrator and the axially symmetric rotor limits seems to be connected to the known presence of a first-order phase/shape transition in this region.
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