Abstract
Cross sections for the production of shell-stabilized evaporation residues in the , and reactions are reported. The compound nucleus excitation energy range considered principally covers the evaporation channel with segments of the and channels also measured. The resultant production cross sections are for nuclides with . From an analysis based on a statistical model, it is concluded that a larger fission probability than that predicted by the Bohr-Wheeler transition-state theory is needed to describe the data. This outcome is attributed to the influence of collective nuclear excitations. Subsequently, the expected stability enhancement against fission due to the influence of the magic shell is not evident. The excitation functions measured in previous experiments in the reactions , and are combined with the present data for projectiles to illustrate systematic behavior of measured cross sections as a function of the difference in fission barrier and neutron separation energy.
- Received 19 May 2015
- Revised 21 August 2015
DOI:https://doi.org/10.1103/PhysRevC.92.054601
©2015 American Physical Society