Measurement of absolute fission yields in the fast neutron-induced fissionof actinides: U-238, Np-237, Pu-238, Pu-240, Am-243, and Cm-244 by track-etch-cum-gamma spectrometry

The absolute fission yields of 46 fission products in U-238 (99.9997 at. %) , 46 fission products in Np-237, 27 fission products in Pu-238 (99.21 at. % ), 30 fission products in Pu-240 (99.48 at. %), 30 fission products in Am-2 43 (99.998 at. %), and 32 fission products in Cm-244 (99.43 at. %) induced by fast neutrons were determined using a fission track-etch-cum-gamma spect rometric technique. In the case of highly alpha-active and sparingly availa ble actinides-e.g., Pu-238, Pu-240 Am-243, and Cm-244-a novel recoil catche r technique to collect the fission products on a Lexan polycarbonate foil f ollowed by gamma-ray spectrometry was developed during the course of this w ork. This completely removed interferences from (a) gamma rays of daughter products in secular equilibrium with the target nuclide (e.g., Am-243-Np-23 9), (b) activation products of the catcher foil [e.g., Na-24 from Al(n, alp ha)], and (c) activation products of the target [e.g., Np-238 from Np-237(n , gamma) and Np-239 from U-238(n, gamma) reactions, making the gamma spectr ometric analysis very simple and accurate. The high-yield asymmetric fissio n products were analyzed by direct gamma spectrometry, whereas the low-yiel d symmetric products (e.g., Ag, Cd, and Sb) as well as some of the asymmetr ic fission products (e.g., Br) and rare earths (in the case of U-238 and Np -237) were radiochemically separated and then analyzed by gamma-ray spectro metry. The neutron spectra in the irradiation positions of the reactors wer e measured and delineated in the thermal to 10-MeV region using threshold a ctivation detectors. The present data were compared with the ENDF/VI and UK FY2 evaluated data files. From the measured cumulative yields, the mass-cha in yields have been deduced using charge distribution systematics. The mass yields, along with similar data for other fast neutron-induced fissioning systems, show several important features: 1. Fine structure in the interval of five mass units in even-Z fissioning s ystems due to odd-even effects. The fine structure decreases from lighter t o heavier even-Z actinides, in accordance with their odd-even effect. 2. Higher yields in the mass regions 133 to 135, 138 to 140, and 143 to 145 and their complementary mass regions, depending on the mass of the fission ing systems due to the presence of 82n-66n, 86n-62n, and 88n-56n shells. 3. For odd-Z fissioning systems having no odd-even effect, the fine structu re is very feeble and is due only to shell effects. 4. Unusually high yields observed in the mass region 133 to 139 in the fiss ioning system U-239* as compared to other U isotopes are explained on the b asis of a higher neutron-to-proton ratio (N/Z) of U-238 compared to lower-m ass uranium isotopes. The <(upsilon)over bar>, full-width at tenth-maximum, and (A) over bar(L) increase with increasing mass of the fissioning system s, whereas (A) over bar(H) of -139 +/- 1 remains constant throughout due to the strong preference for the formation of the deformed 88n shell, which i s also favorable from the N/Z point of view.