Towards routine NAA of materials rich in heavy elements with iterative gamma-ray attenuation and neutron self-shielding calculations

Abstract

Solids and powders can be analysed directly and with good accuracy by neutron activation analysis without sample preparation because of the excellent penetrating powers of neutrons and gamma rays. However, if the sample contains high concentrations of gamma-absorbing heavy elements or neutron-absorbing elements, the analysis results must be corrected for neutron self-shielding and gamma-ray attenuation. These effects are coupled and depend on the chemical composition of the sample, which is the final result of the analysis. Thus, the correction calculation must be iterative. In this work we performed the first coupled iterative corrections of the two effects. Six test samples were prepared by mixing powders containing compounds of Cd, a neutron absorber, and the rare-earth elements Ce, Pr and Nd with concentrations as high as 47 %. The samples were irradiated in the SLOWPOKE research reactor and counted with a germanium gamma-ray detector. In the samples with the highest heavy element concentrations, the uncorrected Neutron activation analysis results were in error by as much as 55 %. The results were corrected iteratively using the neutron self-shielding model coupled with the gamma-ray attenuation model, and the final corrected results were accurate to 5 % or better.