English

Developing diagnostic tools for low-burnup reactor samples

Instrumentation and Detectors 2017-11-08 v1 Materials Science Nuclear Experiment Nuclear Theory

Abstract

We test common fluence diagnostics in the regime of very low burnup natural uranium reactor samples. The fluence diagnostics considered are the uranium isotopics ratios 235^{235}U/238^{238}U and 236^{236}U/235^{235}U, for which we find simple analytic formulas agree well with full reactor simulation predictions. Both ratios agree reasonably well with one another for fluences in the mid 1019n/cm210^{19}\,\mathrm{n/cm^2} range. However, below about 1019n/cm210^{19}\,\mathrm{n/cm^2} the concentrations of 236^{236}U are found to be sufficiently low that the measured 236^{236}U/235^{235}U ratios become unreliable. We also derive and test diagnostics for determining sample cooling times in situations where very low burnup and very long cooling times render many standard diagnostics, such as the 241^{241}Am/241^{241}Pu ratio, impractical. We find that using several fragment ratios are necessary to detect the presence of systematic errors, such as fractionation.

Cite

@article{arxiv.1705.07738,
  title  = {Developing diagnostic tools for low-burnup reactor samples},
  author = {Patrick Jaffke and Benjamin Byerly and Jamie Doyle and Anna Hayes and Gerard Jungman and Steven Myers and Angela Olson and Donivan Porterfield and Lav Tandon},
  journal= {arXiv preprint arXiv:1705.07738},
  year   = {2017}
}

Comments

7 pages, 4 figures

R2 v1 2026-06-22T19:54:42.771Z