铅薄膜X射线屏蔽性能的实验与理论研究

Q4 Health Professions
M. Vagheian, D. Sardari, S. Saramad, D. R. Ochbelagh
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引用次数: 3

摘要

背景:在所有的辐射中,由于工业、研究机构和医疗中心越来越多地使用X射线管,X射线一直是人们关注的焦点。本研究分别采用蒙特卡罗计算和实验方法研究了体相和纳米结构铅薄膜的X射线屏蔽性能。材料和方法:采用物理气相沉积技术(PVD)制备了厚度分别为10、100和1000nm的铅样品。为了研究纳米结构薄膜的辐射屏蔽性能,对所有制备的样品进行8至14keV的X射线照射。为了考虑体相结构薄膜的屏蔽性能,采用了蒙特卡罗MCNPX程序。结果:结果表明,在低X射线能量下,纳米结构的铅薄膜比大块结构的样品衰减更大;然而,随着膜厚度增加到1000nm或X射线能量达到14keV,差异消失。结论:结果表明,纳米结构的铅薄膜比相同厚度的块状结构铅薄膜衰减更多的光子。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimental and theoretical investigation into X-ray shielding properties of thin lead films
Background: Among all of the radiations, X-ray has been always the center of attention due to the increasing availability of the X-ray tubes in industry, research institutes and medical centers. In this study, X-ray shielding properties of bulk and nanostructured thin lead films were investigated by means of Monte-Carlo computational and experimental methods, respectively. Materials and Methods: The lead samples were fabricated by the Physical Vapor Deposition technique (PVD) with different thickness of 10, 100 and 1000 nm. To investigate the radiation shielding properties of the nanostructured thin films, all of the prepared samples were subjected to the X-ray ranging from 8 to 14 keV. In order to consider the shielding properties of the bulk-structured thin films, the Monte-Carlo MCNPX code was employed. Results: The results indicated that, for low X-ray energies, the nanostructured thin lead films attenuate more than bulk-structured samples; however, the difference disappears as film thickness increases to 1000 nm or X-ray energy reaches 14 keV. Conclusion: Results imply that the nanostructured thin lead films attenuate more photons than the bulkstructured thin lead films with the same thicknesses.
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来源期刊
Iranian Journal of Radiation Research
Iranian Journal of Radiation Research RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING-
CiteScore
0.67
自引率
0.00%
发文量
0
审稿时长
>12 weeks
期刊介绍: Iranian Journal of Radiation Research (IJRR) publishes original scientific research and clinical investigations related to radiation oncology, radiation biology, and Medical and health physics. The clinical studies submitted for publication include experimental studies of combined modality treatment, especially chemoradiotherapy approaches, and relevant innovations in hyperthermia, brachytherapy, high LET irradiation, nuclear medicine, dosimetry, tumor imaging, radiation treatment planning, radiosensitizers, and radioprotectors. All manuscripts must pass stringent peer-review and only papers that are rated of high scientific quality are accepted.
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