新开发的铋硼碲玻璃系统辐射衰减参数的模拟与计算

IF 1.7 4区综合性期刊 Q2 MULTIDISCIPLINARY SCIENCES

Journal of Radiation Research and Applied Sciences Pub Date : 2024-08-29 DOI:10.1016/j.jrras.2024.101091

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引用次数: 0

摘要

本文对新开发的铋硼碲玻璃体系的辐射衰减参数进行了全面的模拟和计算研究。通过先进的计算建模和理论分析，对所研究的玻璃体系的线性和质量衰减系数（μ 和 μ/ρ）以及其他关键辐射衰减参数在一定光子能量范围内进行了深入研究。利用最先进的模拟技术和理论模型，对玻璃系统的辐射屏蔽效果进行了评估，为其在辐射防护和屏蔽领域的潜在应用提供了启示。我们发现，BTBiBV-1、BTBiBV-2、BTBiBV-3、BTBiBV-4 和 BTBiBV-5 对快中子的 ΣR 值分别为 0.10013、0.10221、0.10953、0.11347 和 0.11383 cm-1。本研究的结果有助于人们了解铋硼碲玻璃的辐射衰减特性，并为其在医疗成像、核能和工业射线照相等多个领域的应用提供了有价值的信息。此外，对不同光子能量的衰减参数进行精确建模和表征对于设计有效的辐射防护策略以及确保辐射环境中人员和设备的安全至关重要。

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Simulation and calculation of the radiation attenuation parameters of newly developed bismuth boro-tellurite glass system

This paper presents a comprehensive simulation and calculation study of the radiation attenuation parameters for a newly developed bismuth boro tellurite glass system. Through advanced computational modeling and theoretical analysis, linear and mass attenuation coefficients (μ and μ/ρ), and other key radiation attenuation parameters of the studied glass system are thoroughly investigated across a range of photon energies. Utilizing state-of-the-art simulation techniques and theoretical models, the radiation shielding effectiveness of the glass system is evaluated, offering insights into its potential applications in radiation protection and shielding. We found that the Σ_R values for fast neutrons are 0.10013, 0.10221, 0.10953, 0.11347 and 0.11383 cm⁻¹ for BTBiBV-1, BTBiBV-2, BTBiBV-3, BTBiBV-4, and BTBiBV-5, respectively. The results of this study contribute to the understanding of the radiation attenuation properties of bismuth boro tellurite glasses and provide valuable information for their utilization in various fields, including medical imaging, nuclear power, and industrial radiography. Additionally, accurate modeling and characterization of attenuation parameters across different photon energies are crucial for designing effective radiation protection strategies and ensuring the safety of personnel and equipment in radiation environments.

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来源期刊

Journal of Radiation Research and Applied Sciences MULTIDISCIPLINARY SCIENCES-

自引率

5.90%

发文量

130

审稿时长

16 weeks

期刊介绍： Journal of Radiation Research and Applied Sciences provides a high quality medium for the publication of substantial, original and scientific and technological papers on the development and applications of nuclear, radiation and isotopes in biology, medicine, drugs, biochemistry, microbiology, agriculture, entomology, food technology, chemistry, physics, solid states, engineering, environmental and applied sciences.