Comparison between the measurements by the fiber-optic gamma radiation sensors with the sensing probes of different height

Sang Bin Lee, Jae Wook Kim, Rinah Kim, J. Moon
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Abstract

This study developed a fiber-optic radiation sensor (FORS) to make real-time measurement of gammaradiation at the nuclear facility decommissioned site. The FORS consisted of a sensing probe, a transmitting plastic optical fiber, a measuring device and a laptop computer. The sensing probe of the FORS was hexahedron form and fabricated using LYSO:Ce inorganic scintillator, mixture of epoxy and hardener as light guide, and aluminum foil as a reflector. Two sensing probes with different heights, 0.3 mm and 15 mm, were prepared. The light transmitted through the plastic optical fiber was converted by the photomultiplier tube and amplified by an amplifier. A multi-channel analyzer (MCA) with the GENIE2000 program was used for the data acquisition and analysis. The FORSs were applied to measure a Co-60 disk source (92.43 μCi, 2015.02). The measurements showed that the sensing probe with the height of 15 mm was better in terms of detection efficiency.
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光纤伽马辐射传感器与不同高度感测探头测量结果的比较
本研究开发了一种光纤辐射传感器(FORS),用于对核设施退役现场的伽马辐射进行实时测量。FORS由一个传感探头、一根传输塑料光纤、一个测量装置和一台笔记本电脑组成。FORS传感探头为六面体形式,采用LYSO:Ce无机闪烁体、环氧树脂和硬化剂的混合物作为光导、铝箔作为反射镜制成。制备了两种高度分别为0.3 mm和15 mm的传感探针。通过塑料光纤传输的光经光电倍增管转换,再经放大器放大。使用多通道分析仪(MCA)和GENIE2000程序进行数据采集和分析。采用fors对Co-60圆盘源(92.43 μCi, 2015.02)进行了测量。测量结果表明,高度为15 mm的传感探头检测效率较高。
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