Neutron induced fission of U-234 | Health & Environmental Research Online (HERO)

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Citation
Tags

HERO ID

8784516

Reference Type

Book/Book Chapter

Title

Neutron induced fission of U-234

Author(s)

Hambsch, F; Al-Adili, A; Oberstedt, S; Pomp, S

Year

2012

Book Title

CNR*11 - THIRD INTERNATIONAL WORKSHOP ON COMPOUND NUCLEAR REACTIONS AND RELATED TOPICS

Volume

Language

English

DOI

10.1051/epjconf/20122108001

Web of Science Id

WOS:000304527300030

Abstract

The fission fragment properties of U-234(n, f) were investigated as a function of incident neutron energy from 0.2 MeV up to 5 MeV. The fission fragment mass, angular distribution and kinetic energy were measured with a double Frisch-grid ionization chamber using both analogue and digital data acquisition techniques. The reaction U-234(n, f) is relevant, since it involves the same compound nucleus as formed after neutron evaporation from highly excited U-236*, the so-called second-chance fission of U-235. Experimental data on fission fragment properties like fission fragment mass and total kinetic energy (TKE) as a function of incident neutron energy are rather scarce for this reaction. For the theoretical modelling of the reaction cross sections for Uranium isotopes this information is a crucial input parameter. In addition, U-234 is also an important isotope in the Thorium-based fuel cycle. The strong anisotropy of the angular distribution around the vibrational resonance at E-n = 0.77 MeV could be confirmed using the full angular range. Fluctuations in the fragment TKE have been observed in the threshold region around the strong vibrational resonance at E-n = 0.77 MeV. The present results are in contradiction with corresponding literature values. Changes in the mass yield around the vibrational resonance and at E-n = 5 MeV relative to E-n = 2 MeV show a different signature. The drop in mean TKE around 2.5 to 3 MeV points to pair breaking as also observed in U-235,U-238(n, f). The measured two-dimensional mass yield and TKE distribution have been described in terms of fission modes. The yield of the standard 1 (S1) mode shows fluctuations in the threshold of the fission cross section due to the influence of the resonance and levels off at about 20% yield for higher incident neutron energies. The S2 mode shows the respective opposite behaviour. The mean TKE of both modes decreases with E-n. The decrease in mean TKE overrules the increase in S1 yield, so the mean TKE is dropping as a function of E-n above 2.5 MeV.

Keywords

KINETIC-ENERGY; FRAGMENTS

Editor(s)

Kroll, J