Role of Fragment Higher Static Deformations in the Cold Binary Fission
  of $^{252}$Cf

A. Benoufella; A. Florescu; A. Florescu; A. Săndulescu; A. Săndulescu; A. Săndulescu; A. Săndulescu; A. Săndulescu; A. Săndulescu; A.H. Wapstra; A.V. Ramayya; C. Guet; F. Cârstoiu; F. Cârstoiu; F. Gönnenwein; F.-J. Hambsch; G.M. Ter-Akopian; J.C.D. Milton; J.H. Hamilton; M.E. Brandan; P. Möller; W. Dilg; W. Greiner; W. Schwab; Ş. Mişicu

research

Role of Fragment Higher Static Deformations in the Cold Binary Fission of $^{252}$ Cf

Authors: A. Benoufella
A. Florescu
A. Florescu
A. Săndulescu
A. Săndulescu
A. Săndulescu
A. Săndulescu
A. Săndulescu
A. Săndulescu
A.H. Wapstra
A.V. Ramayya
C. Guet
F. Cârstoiu
F. Cârstoiu
F. Gönnenwein
F.-J. Hambsch
G.M. Ter-Akopian
J.C.D. Milton
J.H. Hamilton
M.E. Brandan
P. Möller
W. Dilg
W. Greiner
W. Schwab
Ş. Mişicu
Publication date: 1 January 1998
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We study the binary cold fission of

^{252}

Cf in the frame of a cluster model where the fragments are born to their respective ground states and interact via a double-folded potential with deformation effects taken into account up to multipolarity

\lambda=4

. The preformation factors were neglected. In the case when the fragments are assumed to be spherical or with ground state quadrupole deformation, the

Q

-value principle dictates the occurence of a narrow region around the double magic

^{132}

Sn, like in the case of cluster radioactivity. When the hexadecupole deformation is turned on, an entire mass-region of cold fission in the range 138 - 156 for the heavy fragment arise, in agreement with the experimental observations. This fact suggests that in the above mentioned mass-region, contrary to the usual cluster radioactivity where the daughter nucleus is always a neutron/proton (or both) closed shell or nearly closed shell spherical nucleus, the clusterization mechanism seems to be strongly influenced by the hexadecupole deformations rather than the