用蒙特卡罗模拟核医学领域小型OSL剂量计的能量和角依赖关系

V. Cruz, T. Okazaki, H. Hayashi, Y. Mihara, T. Asahara, N. Kimoto, H. Okino, Y. Kanazawa, T. Hashizume, I. Kobayashi
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引用次数: 1

摘要

病人和医务人员因使用x射线和放射性物质进行检查而受到的辐射剂量不断增加,需要可靠的辐射剂量测定系统。OSL剂量计可以在这种情况下使用和应用。但目前,其在核医学领域的性质尚不清楚。在用蒙特卡罗模拟程序计算该区域的基本性质时,必须考虑二次电子平衡。本研究的目的是提出一种用于模拟研究的紧凑型辐照系统,并利用它来评估小型OSL剂量计的能量和角依赖性。所提出的系统使用了丙烯酸模型,考虑到模拟的准确性和散射射线的污染,我们研究了使用哪种模型厚度。然后,应用该系统确定了小型OSL剂量计的角依赖关系和能量依赖关系。利用OSL剂量计进行了实验,以验证模拟的准确性。此外,在模拟OSL剂量计的响应时,我们确定了检测材料的基本参数。我们进行了几种情况,得出以下参数与实验吻合较好:检测层为100% Al2O3,密度为1.41 g/cm3。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Energy and angular dependence of the small-type OSL dosimeter in nuclear medicine regions using Monte Carlo simulation
Radiation doses received by patients and medical staff from examinations using X-rays and radioactive materials have been increasing, and a reliable radiation dosimetry system is a necessity. An OSL dosimeter can be used and applied in such situations. However at this time, its property for nuclear medicine region is unclear. When we calculate the basic properties in this region using the Monte-Carlo simulation code, the consideration of secondary electron equilibrium is important. The aim of this study is to propose a compact irradiation system for simulation study, and use it to evaluate the energy and angular dependence of the small-type OSL dosimeter. The proposed system uses a phantom of acrylic and we examined which phantom thickness will be used considering the accuracy of the simulation and the contamination from scattered rays. Then, this system was applied to determine angular and energy dependences of the small-type OSL dosimeter. Experiments using the OSL dosimeter were performed in order to check the accuracy of the simulations. In addition when simulating the response of the OSL dosimeter, we determined the basic parameters of the detection material. We performed several situations, and concluded that the following parameters were in good agreement with the experiment: a detection layer of 100% Al2O3 with a density of 1.41 g/cm3.
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