Basic Performance Evaluation of a Radiation Survey Meter That Uses a Plastic-Scintillation Sensor

Sensors (Basel). 2024 May 7;24(10):2973. doi: 10.3390/s24102973.

Abstract

After the Fukushima nuclear power plant accident in 2011, many types of survey meters were used, including Geiger-Müller (GM) survey meters, which have long been used to measure β-rays. Recently, however, a novel radiation survey meter that uses a plastic-scintillation sensor has been developed. Although manufacturers' catalog data are available for these survey meters, there have been no user reports on performance. In addition, the performance of commercial plastic-scintillation survey meters has not been evaluated. In this study, we experimentally compared the performance of a plastic-scintillation survey meter with that of a GM survey meter. The results show that the two instruments performed very similarly in most respects. The GM survey meter exhibited count losses when the radiation count rate was high, whereas the plastic-scintillation survey meter remained accurate under such circumstances, with almost no count loss at high radiation rates. For measurements at background rates (i.e., low counting rates), the counting rates of the plastic-scintillation and GM survey meters were similar. Therefore, an advantage of plastic-scintillation survey meters is that they are less affected by count loss than GM survey meters. We conclude that the plastic-scintillation survey meter is a useful β-ray measuring/monitoring instrument.

Keywords: Fukushima nuclear accident; Geiger–Müller (GM); electron beam; environmental radiation; plastic scintillator; plastic-scintillation survey meter; radiation monitoring/measurement; radiation survey meter; surface radiation contamination; β-ray.