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KMID : 0357520220450060523
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Journal of Radiological Science and Technology
2022 Volume.45 No. 6 p.523 ~ p.529
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A Study on the Self-absorption Correction Method of HPGe Gamma Spectrocopy Analysis System Using Check Source
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Park Jeong-Soo
Lim Hyo-Jin
Seo Hyun-Soo
Jang Da-Bin
Kim Myoung-Joon
Lee Sang-Bok
Ahn Sung-Min
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Abstract
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Gamma spectroscopy analysis is widely used for radioactivity analysis, and various factors are required for radioactivity calculations. Among the factors, K3 for each sample significantly influences the results. The previous methods of correcting the self-absorption effect include a computational simulation method and a method that requires making a CRM(certified reference material) identical to the sample medium. However, the above methods have limitations when used in small institutions because they require specialized program utilization skills or high manufacturing costs and large facilities. The aim of this study is to develop a method that can be easily and rapidly applied to radioactivity analysis.
After filling the beaker with water, we placed the radiation source in a uniform position and used the measured value as the benchmark. Next, a correction factor was derived based on the difference in the radiation source count of the benchmark and the identically measured sample. For the radiation source, Eu-152, which emits a broad range of energy within the measurement range of gamma rays, and Cs-134 and Cs-137, which are indicator nuclides in environmental radiation analysis, were used. The sample was selected within the density range of 0.26?2.11 g/cm3, and the correction factor was derived by calculating the count difference of each sample compared to the reference value of water. This study presents a faster and more convenient method than the existing research methods for determining the self-absorption effect correction, which has become increasingly necessary.
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KEYWORD
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Gamma spectroscopy, Self absorption correction, Correction factor, Radiation shielding, Radioactivity
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