J.D. Valentine scite author profile

A portable system that monitors the quantity of radioxenon (131mXe, "3Xe, 133mXe, and 13'Xe) in the atmosphere is being developed. The integrated monitoring system consists of a fluid-based concentration sub-system and a detection subsystem. This study evaluates the performance of different high-efficiency geometries that use NaI(T1) photon detectors along with with either gas proportional, plastic scintillator, or PIPS detectors to distinguish radioxenon signature emissions and discriminate against radon background. In addition, a NaI(TI)/CsI(TI) phoswich detector was investigated as an alternative photon detector. Finally, a dual parameter data acquisition system was demonstrated. Minimum detectable activity (MDA) for a six hour count time was used as the primary measure of performance. The lowest MDAs were 5217 mBq for the gas proportional/NaI(Tl) configuration, 4817 mBq for the plastic scintillator/NaI(Tl) configuration and 73+8 mBq for the PIPS/N$(Tl) configuration. Based on these results, the performance of a proposed final detection system is predicted to result in a MDA of 12.2 mBq without shielding. This detection system performance compares well to existing radioxenon detection systems and indicates the requirements of the concentration system.

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J.D. Valentine

An evaluation of radioxenon detection techniques for use with a fluid-based concentration system

Improved radioxenon detection techniques for use with fluid-based concentration

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