Standardization of 222Rn by LSC and comparison with α- and γ-spectrometry

Abstract Liquid scintillation counting (LSC) was used for the measurement of 222 Rn in equilibrium with its daughters, with detection efficiency close to 5. The appropriate corrections were considered, including one related to the probability that the 165-μs half-life 214 Po decays during the dead time of the counter initiated by the disintegration of his parent nuclide, 214 Bi. The dead-time determination of a commercial LS counter is also presented using a 222 Rn standard source. The LSC 222 Rn sources were prepared by transfer of 222 Rn produced by a solid 226 Ra source into LSC cocktail frozen at 77 K, flame-sealed afterwards. They were measured using the LNHB triple coincidence counter with adjustable extending-type dead-time unit, between 8 and 100 μs; two different procedures were used to calculate an effective dead time and then to deduce the counting rate extrapolated to zero dead-time value. The LSC results were compared with those obtained by cryogenic α -particle spectrometry (LNHB system) and by γ -ray spectrometry for the same radon source in the LSC vial; the geometry transfer coefficient was calculated using the ETNA software. Measurement results and uncertainties are discussed.