Macroscopic and microscopic description of phase transition in cerium isotopes
Résumé
The spherical-to-deformed phase transition in cerium isotopes recently suggested to occur between and has been examined in the framework of the macroscopic algebraic collective model and two microscopic approaches, namely Skyrme-Hartree-Fock Bardeen-Cooper-Schrieffer (BCS) calculations and the symmetry conserving configuration mixing method with Gogny energy density functionals applied also to the neighboring nuclei along the cerium isotopic chain. Possible spectral signatures of the phase transition are discussed in more details. The microscopic calculations predict octupole softness manifested by rather flat potential energy curves as a function of the octupole deformation parameter for and and shape coexistence characterized by axially symmetric states, triaxial bands, and octupole deformation for the lowest states.