Westcott g Factors Extended to Arbitrary Neutron Energy Spectra

Abstract

Westcott g factors are used in Neutron Activation Analysis (NAA) and Prompt Gamma-ray Activation Analysis (PGAA) to evaluate the impact of non-1/v behavior in the neutron-capture cross sections of certain nuclei on activation product yields. This non-1/v behavior arises from the presence of neutron resonances in the neutron-capture cross sections that overlap with the source neutron spectrum at low (<5~eV) energies. Historically, Westcott g factors that have been cataloged for NAA and PGAA applications are the result of calculations that assume a Maxwellian neutron velocity distribution with a given average temperature. In this study, we use this approach with updated neutron-capture cross sections from the Evaluated Nuclear Data File, version VIII.1 (ENDF/B-VIII.1) to tabulate Westcott g factor values for a broad range of Maxwellian distribution temperatures, comparing the results against currently-available g factors from International Atomic Energy Agency tables and other sources. It was discovered during this analysis that the use of guided thermal and cold-neutron beams at certain facilities necessitates an approach for evaluating Westcott g factors based on arbitrary non-Maxwellian spectra. In this paper, we present an approach for calculating g factors with user-specified neutron spectra, and we apply these methods to obtain Westcott g-factors for guided- and cold-neutron beams at the Budapest Research Reactor and the Forschungsreaktor München II reactor. Open-source software has been developed as part of this study that can be used to perform these calculations for applications in PGAA and NAA experiments