Shape evolution in yttrium and niobium neutron-rich isotopes
Entidad
UAM. Departamento de Física TeóricaEditor
American Physical SocietyFecha de edición
2011-04-11Cita
10.1103/PhysRevC.83.044307
Physics review C 83.4 (2011): 044307
ISSN
0556-2813 (print); 1089-490X (online)DOI
10.1103/PhysRevC.83.044307Financiado por
This work was supported by MICINN (Spain) under Grants No. FIS2008-01301, No. FPA2009-08958, and No. FIS2009-07277 and Consolider-Ingenio 2010 Programs CPAN CSD2007-00042 and MULTIDARK CSD2009-00064.Proyecto
Gobierno de España. FIS2008-01301; Gobierno de España. FPA2009-08958; Gobierno de España. FIS2009-07277; Gobierno de España. CSD2007-00042; Gobierno de España. CSD2009-00064Versión del editor
http://dx.doi.org/10.1103/PhysRevC.83.044307Materias
FísicaDerechos
© 2011 American Physical SocietyResumen
The isotopic evolution of the ground-state nuclear shapes and the systematics of one-quasiproton configurations are studied in neutron-rich odd-A yttrium and niobium isotopes. We use a self-consistent Hartree-FockBogoliubov formalism based on the Gogny energy density functional with two parametrizations, D1S and D1M. The equal-filling approximation is used to describe odd-A nuclei preserving both axial and time-reversal symmetries. Shape-transition signatures are identified in the N = 60 isotopes in both the charge radii and spin parities of the ground states. These signatures are a common characteristic for nuclei in the whole mass region. The nuclear deformation and shape coexistence inherent to this mass region are shown to play a relevant role in the understanding of the spectroscopic features of the ground and low-lying one-quasiproton states. Finally, a global picture of the neutron-rich A ∼ 100 mass region from krypton up to molybdenum isotopes is illustrated with the systematics of the nuclear charge radii isotopic shifts
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Google Scholar:Rodriguez-Guzman, R.
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Sarriguren, P.
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Robledo Martín, Luis Miguel
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