The Application of Full Spectrum Analysis to NaI(Tl) Gamma Spectrometry for the Determination of Burial Dose Rates

Abstract: In this study, we explored the potential of a NaI(Tl) scintillator-based gamma spectrometer for the accurate determination of burial dose rates in natural geological samples using a full spectrum analysis (FSA) approach. In this method, an iterative reweighted least-square regression is used to fit calibration standard spectra (40K, and 238U and 232Th series in equilibrium) to the sample spectrum, after subtraction of an appropriate background. The resulting minimum detection limits for 40K, 238U, and 232Th ar… Show more

“…Many systems designed for dose rate determination will either measure α radiation (Aitken, 1985b), β radiation (Ankjærgaard & Murray, 2007; Sanderson, 1988), γ radiation (Bu et al, 2021; Guérin & Mercier, 2011), or combined radiations (Cunningham et al, 2018; Tudyka et al, 2018). Such systems produce results with correlations and uncertainties that can be described by a covariance matrix.…”

μRate: An online dose rate calculator for trapped charge dating

“…Many systems designed for dose rate determination will either measure α radiation (Aitken, 1985b), β radiation (Ankjærgaard & Murray, 2007; Sanderson, 1988), γ radiation (Bu et al, 2021; Guérin & Mercier, 2011), or combined radiations (Cunningham et al, 2018; Tudyka et al, 2018). Such systems produce results with correlations and uncertainties that can be described by a covariance matrix.…”

μRate: An online dose rate calculator for trapped charge dating

Calibration of buried NaI(Tl) scintillator detectors for natural radionuclide measurement based on Monte Carlo modelling