Monte Carlo Computational Software and Methods in Radiation Dosimetry

N. Chatzisavvas, G. Priniotakis, M. Papoutsidakis, D. Nikolopoulos, I. Valais, Georgios Karpetas
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引用次数: 1

Abstract

The fast developments and ongoing demands in radiation dosimetry have piqued the attention of many software developers and physicists to create powerful tools to make their experiments more exact, less expensive, more focused, and with a wider range of possibilities. Many software toolkits, packages, and programs have been produced in recent years, with the majority of them available as open source, open access, or closed source. This study is mostly focused to present what are the Monte Carlo software developed over the years, their implementation in radiation treatment, radiation dosimetry, nuclear detector design for diagnostic imaging, radiation shielding design and radiation protection. Ten software toolkits are introduced, a table with main characteristics and information is presented in order to make someone entering the field of computational Physics with Monte Carlo, make a decision of which software to use for their experimental needs. The possibilities that this software can provide us with allow us to design anything from an X-Ray Tube to whole LINAC costly systems with readily changeable features. From basic x-ray and pair detectors to whole PET, SPECT, CT systems which can be evaluated, validated and configured in order to test new ideas. Calculating doses in patients allows us to quickly acquire, from dosimetry estimates with various sources and isotopes, in various materials, to actual radiation therapies such as Brachytherapy and Proton therapy. We can also manage and simulate Treatment Planning Systems with a variety of characteristics and develop a highly exact approach that actual patients will find useful and enlightening. Shielding is an important feature not only to protect people from radiation in places like nuclear power plants, nuclear medical imaging, and CT and X-Ray examination rooms, but also to prepare and safeguard humanity for interstellar travel and space station missions. This research looks at the computational software that has been available in many applications up to now, with an emphasis on Radiation Dosimetry and its relevance in today's environment.
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辐射剂量测定中的蒙特卡罗计算软件和方法
辐射剂量测定的快速发展和持续需求引起了许多软件开发人员和物理学家的注意,他们创造了强大的工具,使他们的实验更精确、更便宜、更专注,并具有更广泛的可能性。近年来,已经产生了许多软件工具包、包和程序,其中大多数以开源、开放访问或闭源代码的形式提供。本研究主要致力于介绍多年来开发的蒙特卡罗软件,以及它们在辐射治疗、辐射剂量测定、诊断成像核探测器设计、辐射屏蔽设计和辐射防护中的应用。介绍了十个软件工具包,给出了一个包含主要特征和信息的表格,以使进入蒙特卡罗计算物理领域的人能够决定使用哪种软件来满足他们的实验需求。该软件可以为我们提供的可能性使我们能够设计任何东西,从X射线管到具有易于更改功能的整个LINAC昂贵系统。从基本的x射线和成对探测器到整个PET、SPECT、CT系统,这些系统可以进行评估、验证和配置,以测试新想法。通过计算患者的剂量,我们可以快速获取各种材料中各种来源和同位素的剂量估计,以及近距离治疗和质子治疗等实际放射治疗。我们还可以管理和模拟具有各种特征的治疗计划系统,并开发一种高度精确的方法,让实际患者感到有用和启发。屏蔽是一项重要功能,不仅可以在核电站、核医学成像、CT和X射线检查室等场所保护人们免受辐射,还可以为星际旅行和空间站任务做好准备和保护人类。这项研究着眼于迄今为止在许多应用中可用的计算软件,重点是辐射剂量测定及其在当今环境中的相关性。
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来源期刊
Annals of Emerging Technologies in Computing
Annals of Emerging Technologies in Computing Computer Science-Computer Science (all)
CiteScore
3.50
自引率
0.00%
发文量
26
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