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Reduction of detection limits in monitoring of internal exposures by a combined evaluation of emissions and spectra.

Oliver Meisenberg
Published in: Radiation and environmental biophysics (2024)
Routine monitoring of internal exposures requires the detection of effective doses of at most 1 mSv per calendar year. For some radionuclides, this requirement cannot be satisfied by a conventional evaluation of the spectra that are gained in alpha or gamma spectrometry. However, since several measurements are conducted per calendar year on a regular basis, a combined evaluation of measurements, i.e. the evaluation of sum spectra, is possible. Additionally, radionuclides that feature several emissions of alpha or gamma radiation allow a combined evaluation of their emissions. Both methods can lead to significantly smaller detection limits as compared to a separate evaluation of spectra in many cases. However, the variation of parameters that influence the evaluation such as the measurement efficiency, abundance and chemical yield requires specific calculations and treatments of the spectra as well as a manipulation of the channel contents: In a combination of emissions, energy regions are summed and evaluated with a combined efficiency that is weighted by the abundances. In a combination of spectra, the channel contents must be scaled by the ratio of the calibration factors before the summation of the spectra. In the routine monitoring of short-lived radionuclides that feature a variety of emissions such as 225 Ac, these combinations are particularly effective in reducing the detectable annual effective dose. For alpha spectrometry of 225 Ac, both methods applied together can lead to a detectable effective dose of about 1 mSv per year as compared to a dose of about 90 mSv with a conventional separate evaluation.
Keyphrases
  • density functional theory
  • municipal solid waste
  • molecular dynamics
  • machine learning
  • life cycle
  • high resolution
  • real time pcr
  • deep learning
  • neural network
  • wastewater treatment
  • solid phase extraction