Shape coexistence in the very neutron-rich odd-odd 96Rb
Microsecond isomers of neutron-rich nuclei in masses π΄=96 and 98 were reinvestigated at the Institut Laue-Langevin reactor (Grenoble). These nuclei were produced by thermal-neutron induced fission of
241
Pu
. The detection is based on the time correlation between fission fragments selected by the Lohengrin mass spectrometer and the Ξ³ rays and conversion electrons from the isomers. A new level scheme of
96
Rb
is proposed. We have found that the ground state and low-lying levels of this nucleus are rather spherical, and a rotational band develops at 461-keV energy. This band has properties consistent with a πβ’[4313/2]Γπβ’[5413/2]β’πΎ=3β Nilsson assignment and a deformation π½2>0.28. It is fed by a Iπ=10β microsecond isomer consistent with a πβ‘(π9/2)β’πβ‘(β11/2) spherical configuration. It is interesting to note that the same unique-parity states πβ‘(π9/2) and πβ‘(β11/2) are present in the same nucleus in a deformed and in a spherical configuration. The neighboring odd-odd nucleus
98
Y
presents a strong analogy with
96
Rb
and is also discussed.
Authors: J.A. Pinston, J. Genevey, R. Orlandi, A. Scherillo, G.S. Simpson, I. Tsekhanovich, W. Urban, H. Faust, N. Warr
Doi: 10.1103/PhysRevC.71.064327
Issue number:
Journal: Phys. Rev. C
Page number: 064327
Published on: 2005-06-30
Year: