EPJ Web of Conferences (Jan 2020)

Observations of poorly-known features of the 239Pu and 235U prompt fission neutron spectra

  • Kelly Keegan J.,
  • Gomez Jaime A.,
  • O'Donnell John M.,
  • Devlin Matthew,
  • Haight Robert C.,
  • Taddeucci Terry N.,
  • Mosby Shea M.,
  • Lee Hye Young,
  • Neudecker Denise,
  • Kawano Toshihiko,
  • Lovell Amy E.,
  • Talou Patrick,
  • White Morgan C,
  • Ching-Yen Wu,
  • Henderson Roger A.,
  • Henderson Jack,
  • Buckner Matthew Q.

DOI
https://doi.org/10.1051/epjconf/202023905010
Journal volume & issue
Vol. 239
p. 05010

Abstract

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Prompt fission neutron spectrum (PFNS) evaluations use provide nuclear data for the PFNS across a wide range of incident and outgoing neutron energies. However, experimental data underlying the evaluation are sparse, inconsistent, and incomplete with respect to the desired incident and outgoing energy coverage. As such, evaluations sometimes predict features of the PFNS, such those relating to multi-chance fission and pre-equilibrium pre-fission neutron emission, without any experimental validation. The Chi-Nu experiment at Los Alamos National Laboratory has recently obtained high-precision results for the 239Pu and 235U PFNS which, for the first time in both cases, have shed light on multi-chance fission and pre-equilibrium contributions to the observed fission neutron spectrum. In addition to providing the first experimental data on some of these fission properties, the angular coverage of the Chi-Nu experiment allows for the extraction of angular distributions of pre-equilibrium pre-fission neutrons. PFNS results of multi-chance fission and pre-equilibrium pre-fission neutron emission are discussed in this proceedings in terms of the observed neutron spectrum and the average PFNS energies.