EPJ Web of Conferences (Jan 2017)

Resonance region measurements of dysprosium and rhenium

  • Leinweber Gregory,
  • Block Robert C.,
  • Epping Brian E.,
  • Barry Devin P.,
  • Rapp Michael J.,
  • Danon Yaron,
  • Donovan Timothy J.,
  • Landsberger Sheldon,
  • Burke John A.,
  • Bishop Mary C.,
  • Youmans Amanda,
  • Kim Guinyun N.,
  • Kang yeong-rok,
  • Lee Man Woo,
  • Drindak Noel J.

DOI
https://doi.org/10.1051/epjconf/201714611003
Journal volume & issue
Vol. 146
p. 11003

Abstract

Read online

Neutron capture and transmission measurements have been performed, and resonance parameter analysis has been completed for dysprosium, Dy, and rhenium, Re. The 60 MeV electron accelerator at RPI Gaerttner LINAC Center produced neutrons in the thermal and epithermal energy regions for these measurements. Transmission measurements were made using 6Li glass scintillation detectors. The neutron capture measurements were made with a 16-segment NaI multiplicity detector. The detectors for all experiments were located at ≈25 m except for thermal transmission, which was done at ≈15 m. The dysprosium samples included one highly enriched 164Dy metal, 6 liquid solutions of enriched 164Dy, two natural Dy metals. The Re samples were natural metals. Their capture yield normalizations were corrected for their high gamma attenuation. The multi-level R-matrix Bayesian computer code SAMMY was used to extract the resonance parameters from the data. 164Dy resonance data were analyzed up to 550 eV, other Dy isotopes up to 17 eV, and Re resonance data up to 1 keV. Uncertainties due to resolution function, flight path, burst width, sample thickness, normalization, background, and zero time were estimated and propagated using SAMMY. An additional check of sample-to-sample consistency is presented as an estimate of uncertainty. The thermal total cross sections and neutron capture resonance integrals of 164Dy and Re were determined from the resonance parameters. The NJOY and INTER codes were used to process and integrate the cross sections. Plots of the data, fits, and calculations using ENDF/B-VII.1 resonance parameters are presented.