A practical approach to determining soil-sample detection efficiency in field gamma-ray spectroscopy

Field measurements of radionuclide activities in soil samples via gamma spectroscopy measurements are conducted for many applications. One example application space is on-site inspection for the Comprehensive Nuclear-Test-Ban Treaty. To extract isotopic activities from observed peak counting rates, it is necessary to understand the absolute efficiency of the detector system for a sample. In principle, this efficiency is a function of many parameters, such as sample geometry, soil elemental composition, and soil density. The demands of field measurements within the context of on-site inspections, however, places a premium on an easy-to-implement approach at the possible expense of accuracy given the need to process many samples in a short period of time. This paper presents a semi-empirical approach, using a calibrated standard and a correction that depends only on the relative differences in density of the sample and the standard. Field measurements were conducted to demonstrate the validity of the approach. •Semi-empirical approach for determining the detection efficiency of radioisotopes in soil samples•Corrections to account for density differences between a standard and a sample are applied•Accept unknown chemical composition of soil as an uncertainty•Suggest how this approach could be implemented in practice