Fusion induced by radioactive ^{132}Sn on ^{64}Ni

J.F. Liang; D. Shapira; C.J. Gross; R.L. Varner; J.R. Beene; A. Galindo-Uribarri; J. Gomez del Campo; P.A. Hausladen; P.E. Mueller; D.C. Radford; D.W. Straner; H. Amro; J.J. Kolata; J.D. Bierman; A.L. Caraley; K.L. Jones; Y. Larochelle; W. Loveland; D. Peterson

Fusion induced by radioactive $^{132}$Sn on $^{64}$Ni

ORAL

Abstract

The fusion excitation function for $^{132}$Sn on $^{64}$Ni was measured. The evaporation residues (ERs) were identified by their energy loss in an ionization chamber located at zero degrees and by time-of-flight. The fission fragments were detected by an annular double-sided silicon strip detector. The fragment-fragment coincidence and angular distributions were used to distinguish fission events from other reaction channels such as deep inelastic scattering. The fusion cross sections for $^{132}$Sn and $^{64}$Ni below the barrier are enhanced as compared to other stable Sn isotopes on $^{64}$Ni. Detailed data analysis and model comparisons will be presented.

^*Oak Ridge National Laboratory is supported by the U.S. Department of Energy under contract No. DE-AC05-00OR22725 with UT-Battelle, LLC.

Oct. 27, 2006, 2:48 PM – Oct. 27, 2006, 3:00 PM

Authors

J.F. Liang
D. Shapira
C.J. Gross
R.L. Varner
J.R. Beene
A. Galindo-Uribarri
J. Gomez del Campo
P.A. Hausladen
P.E. Mueller
D.C. Radford
D.W. Straner
- Oak Ridge National Laboratory
H. Amro
J.J. Kolata
- University of Notre Dame
J.D. Bierman
- Gonzaga Univeristy
A.L. Caraley
- State University of New York at Oswego
K.L. Jones
- Rutgers Univeristy
Y. Larochelle
- University of Tennessee
W. Loveland
D. Peterson
- Oregan State University