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Shape evolution and coexistence in neutron-deficient Nd and Sm nuclei

The evolution of shapes and low-energy shape coexistence is analyzed in neutron-deficient Nd and Sm nuclei, using a five-dimensional quadrupole collective Hamiltonian (5DCH). Deformation energy surfaces, calculated with the relativistic energy density functional PC-PK1 and a separable finite- range pairing interaction, exhibit a transition from spherical shapes near N = 80, to gamma-soft shapes, and to prolate deformed minima in lighter isotopes. The corresponding 5DCH model calculation, based on the self-consistent mean-field potentials, reproduces the empirical isotopic trend of characteristic collective observables, and predicts significantly different deformations for the first two 0(+) states in the N = 74 isotones Nd-134 and Sm-13(6). In addition to bands based on the triaxial gamma-soft ground state, in excellent agreement with data, the occurrence of a low-energy rotational band is predicted, built on the prolate deformed (beta similar to 0.4) excited state 0(2)(+).

Hartree-Bogoliubov theory ; high-spin states ; isomers ; ND-138

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