利用μ介子层析成像技术探测低Z物质的Geant4模拟研究

IF 1.3 4区工程技术 Q3 INSTRUMENTS & INSTRUMENTATION

Journal of Instrumentation Pub Date : 2023-12-01 DOI:10.1088/1748-0221/18/12/C12014

A. Georgadze, V. Kudryavtsev

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引用次数: 0

摘要

传统的货物 X 射线扫描系统使用电离辐射，可能对操作人员和环境有害，并且需要屏蔽。全被动μ介子层析成像技术是一种很有前途的替代或补充 X 射线扫描仪的方法。μ介子层析成像技术是一种非侵入式技术，它利用自然产生的宇宙射线μ介子及其在各种材料中的散射，在不使用电离辐射的情况下生成卡车或集装箱中货物的图像。μ介子是原生宇宙射线与地球大气层碰撞时产生的高能粒子。这些μ介子可以穿透混凝土或金属等厚材料，因此可用于探测包括违禁品在内的隐藏物品。μ介子层析成像技术有望用于多种材料的探测，包括金属、塑料、毒品或香烟等有机材料，以及武器和爆炸物。在这项工作中，我们使用 GEANT4 工具包模拟了μ介子层析成像技术在识别合法货物中隐藏的违禁品方面的性能。我们使用了最接近点（PoCA）重建算法来重建装载卡车的三维图像。

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Geant4 simulation study of low-Z material detection using muon tomography

Traditional X-ray scanning systems for cargo use ionising radiation which can be harmful to operators and the environment and requires shielding. Fully passive muon tomography is a promising alternative or a complementary approach to X-ray scanners. Muon tomography is a non-invasive technique that uses naturally occurring cosmic-ray muons and their scattering in various materials to create images of cargo in trucks or containers without applying ionising radiation. Muons are high-energy particles that are produced when primary cosmic rays collide with the Earth's atmosphere. These muons can penetrate through thick materials, such as concrete or metal, and are therefore useful for detecting hidden objects, including contraband. Muon tomography is expected to be used for detection of a wide range of materials, including metals, plastics, and organic materials like drugs or cigarettes, as well as weapons and explosives. In this work we have used the GEANT4 toolkit to simulate the performance of muon tomography in identifying the contraband hidden inside the legal cargo. We have used the Point of Closest Approach (PoCA) reconstruction algorithm to reconstruct the three-dimensional image of a loaded truck.

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来源期刊

Journal of Instrumentation 工程技术-仪器仪表

CiteScore

2.40

自引率

15.40%

发文量

827

审稿时长

7.5 months

期刊介绍： Journal of Instrumentation (JINST) covers major areas related to concepts and instrumentation in detector physics, accelerator science and associated experimental methods and techniques, theory, modelling and simulations. The main subject areas include. -Accelerators: concepts, modelling, simulations and sources- Instrumentation and hardware for accelerators: particles, synchrotron radiation, neutrons- Detector physics: concepts, processes, methods, modelling and simulations- Detectors, apparatus and methods for particle, astroparticle, nuclear, atomic, and molecular physics- Instrumentation and methods for plasma research- Methods and apparatus for astronomy and astrophysics- Detectors, methods and apparatus for biomedical applications, life sciences and material research- Instrumentation and techniques for medical imaging, diagnostics and therapy- Instrumentation and techniques for dosimetry, monitoring and radiation damage- Detectors, instrumentation and methods for non-destructive tests (NDT)- Detector readout concepts, electronics and data acquisition methods- Algorithms, software and data reduction methods- Materials and associated technologies, etc.- Engineering and technical issues. JINST also includes a section dedicated to technical reports and instrumentation theses.