Development of 3D-scan-based efficiency calibration method of complex-shaped materials in gamma spectrometry
To address gamma spectrometry on complex-shaped materials when the conventional method based on certified reference materials is impractical, we propose a new 3D-scan-based source modeling method for reflecting geometry of complex-shaped materials. Various complex-shaped materials were selected, sca...
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| Published in: | Journal of the Korean Physical Society Vol. 87; no. 2; pp. 225 - 235 |
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| Main Authors: | , , , , , , , |
| Format: | Journal Article |
| Language: | English |
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Seoul
The Korean Physical Society
01.07.2025
Springer Nature B.V 한국물리학회 |
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| ISSN: | 0374-4884, 1976-8524 |
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| Abstract | To address gamma spectrometry on complex-shaped materials when the conventional method based on certified reference materials is impractical, we propose a new 3D-scan-based source modeling method for reflecting geometry of complex-shaped materials. Various complex-shaped materials were selected, scanned with tailored methods depending on the scanned objects, and the scanned 3D data were integrated into the source term models for Monte Carlo simulation. The developed method has been confirmed that all complex-shaped materials thus created can be cast into the Monte Carlo simulation toolkit Geant4 as source terms. It produced mesh deviations of all samples within 1 mm, validating its utility for practical applications. The developed method was experimentally validated using CRM, proving the accuracy of the method. The proposed method enables a comprehensive efficiency calibration for radioactivity analysis of complex-shaped materials without the need for destructive preprocessing. |
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| AbstractList | To address gamma spectrometry on complex-shaped materials when the conventional method based on certified reference materials is impractical, we propose a new 3D-scan-based source modeling method for reflecting geometry of complex-shaped materials. Various complex-shaped materials were selected, scanned with tailored methods depending on the scanned objects, and the scanned 3D data were integrated into the source term models for Monte Carlo simulation. The developed method has been confirmed that all complex-shaped materials thus created can be cast into the Monte Carlo simulation toolkit Geant4 as source terms. It produced mesh deviations of all samples within 1 mm, validating its utility for practical applications. The developed method was experimentally validated using CRM, proving the accuracy of the method. The proposed method enables a comprehensive efficiency calibration for radioactivity analysis of complex-shaped materials without the need for destructive preprocessing. To address gamma spectrometry on complex-shaped materials when the conventional method based on certified reference materials is impractical, we propose a new 3D-scan-based source modeling method for reflecting geometry of complex shaped materials. Various complex-shaped materials were selected, scanned with tailored methods depending on the scanned objects, and the scanned 3D data were integrated into the source term models for Monte Carlo simulation. The developed method has been confirmed that all complex-shaped materials thus created can be cast into the Monte Carlo simulation toolkit Geant4 as source terms. It produced mesh deviations of all samples within 1 mm, validating its utility for practical applications. The developed method was experimentally validated using CRM, proving the accuracy of the method. The proposed method enables a comprehensive efficiency calibration for radioactivity analysis of complex-shaped materials without the need for destructive preprocessing. KCI Citation Count: 0 To address gamma spectrometry on complex-shaped materials when the conventional method based on certified reference materials is impractical, we propose a new 3D-scan-based source modeling method for reflecting geometry of complex-shaped materials. Various complex-shaped materials were selected, scanned with tailored methods depending on the scanned objects, and the scanned 3D data were integrated into the source term models for Monte Carlo simulation. The developed method has been confirmed that all complex-shaped materials thus created can be cast into the Monte Carlo simulation toolkit Geant4 as source terms. It produced mesh deviations of all samples within 1 mm, validating its utility for practical applications. The developed method was experimentally validated using CRM, proving the accuracy of the method. The proposed method enables a comprehensive efficiency calibration for radioactivity analysis of complex-shaped materials without the need for destructive preprocessing. |
| Author | Lee, Jihye Kim, Jiseok Kim, Young-su Kim, Chanjoong Kwon, Jinhyung Kim, Hyeonggon Cho, Seungryong Shin, Donghyuk |
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| Cites_doi | 10.1016/S0168-9002(03)01368-8 10.1088/0031-9155/59/12/3173 10.1093/rpd/nct279 10.2172/1782721 10.1088/1361-6560/aabd20 10.14407/jrpr.2016.41.1.071 10.1002/9781394286577 10.1007/s10967-019-06856-4 10.1145/2629697 |
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| Keywords | Complex-shaped materials 3D-scan Monte Carlo simulation Efficiency calibration Gamma spectrometry |
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| SubjectTerms | Calibration Data processing Efficiency Gamma rays Geometry Lasers Mathematical and Computational Physics Methods Monte Carlo simulation Particle and Nuclear Physics Physics Physics and Astronomy Radioactivity Research - Cross-Disciplinary Physics and Related Areas of Science and Technology Scanners Scientific imaging Software Spectrometry Theoretical 물리학 |
| Title | Development of 3D-scan-based efficiency calibration method of complex-shaped materials in gamma spectrometry |
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