AUTHOR=Loveland Walter 

TITLE=Total kinetic energy release in the fast neutron induced fission of actinide nuclei

JOURNAL=Frontiers in Physics

VOLUME=11

YEAR=2023

URL=https://www.frontiersin.org/journals/physics/articles/10.3389/fphy.2023.1234198

DOI=10.3389/fphy.2023.1234198

ISSN=2296-424X

ABSTRACT=<p>The total kinetic energy release and fission mass distributions for the fast neutron (E<sub>n</sub> = 3–100 MeV) induced fission of <sup>232</sup>Th, <sup>233</sup>U, <sup>235</sup>U, <sup>237</sup>Np, <sup>239</sup>Pu, <sup>240</sup>Pu, and <sup>242</sup>Pu have been measured using the LANSCE facility. The neutron energies were deduced from time-of- flight measurements. The fission fragments were detected using Si PIN diode detectors, giving us the fragment energies. The actinide targets were made by vapor deposition leading to high-quality targets, that were thin and uniform with reduced impurities. Corrections were made to the data for pulse height defect and the fragment energy loss in the target and its backing. The TKE distributions were Gaussian in shape and their mean value as a function of incoming neutron energy could be fitted with second order polynomials. In the case of <sup>233</sup>U and <sup>235</sup>U, our measurements agree with prior work. Our measurements for <sup>232</sup>Th are unique. Our data agree with Viola scaling. The constant position of the heavy mass peak is interpreted as being due to the influence of the N = 88 and Z = 50 shells. The GEF model predictions agree with the data in general as do the CGMF model predictions.</p>