4.6 Article

Improved Radio-Cesium Detection Using Quantitative Real-Time Autoradiography

Journal

ACS OMEGA
Volume 8, Issue 25, Pages 22523-22535

Publisher

AMER CHEMICAL SOC
DOI: 10.1021/acsomega.3c00728

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Cesium-134 and -137 are long-lived, radio-toxic contaminants released during nuclear accidents. We propose an improved method, real-time autoradiography, for detecting Cs-bearing microparticles. This technique provides spatially resolved measurement of radioactivity and could be a valuable tool for forensic analysis after nuclear accidents.
Cesium-134 and -137 are prevalent, long-lived, radio-toxic contaminants released into the environment during nuclear accidents. Large quantities of insoluble, respirable Cs-bearing microparticles (CsMPs) were released into the environment during the Fukushima Daiichi nuclear accident. Monitoring for CsMPs in environmental samples is essential to understand the impact of nuclear accidents. The current detection method used to screen for CsMPs (phosphor screen autoradiography) is slow and inefficient. We propose an improved method: real-time autoradiography that uses parallel ionization multiplier gaseous detectors. This technique permits spatially resolved measurement of radioactivity while providing spectrometric data from spatially heterogeneous samples-a potential step-change technique for use after nuclear accidents for forensic analysis. With our detector configuration, the minimum detectable activities are sufficiently low for detecting CsMPs. Further, for environmental samples, sample thickness does not detrimentally affect detector signal quality. The detector can measure and resolve individual radioactive particles >= 465 mu m apart. Real-time autoradiography is a promising tool for radioactive particle detection.

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