碎片(计算)
布拉格峰
离子
碳纤维
材料科学
沉积(地质)
离子束
梁(结构)
聚类分析
同位素
原子物理学
辐射
物理
计算物理学
核物理学
光学
计算机科学
地质学
古生物学
复合材料
机器学习
操作系统
复合数
量子力学
沉积物
作者
Z. Francis,Edgard SEIF,S. Incerti,C. Champion,M. Karamitros,Mario A. Bernal,V. Ivanchenko,A. Mantero,H.N. Tran,Ziad El Bitar
标识
DOI:10.1088/0031-9155/59/24/7691
摘要
In this study, fragmentation yields of carbon therapy beams are estimated using the Geant4 simulation toolkit version 9.5. Simulations are carried out in a step-by-step mode using the Geant4-DNA processes for each of the major contributing fragments. The energy of the initial beam is taken 400 MeV amu−1 as this is the highest energy, which is used for medical accelerators and this would show the integral role of secondary contributions in radiotherapy irradiations. The obtained results showed that 64% of the global dose deposition is initiated by carbon ions, while up to 36% is initiated by the produced fragments including all their isotopes. The energy deposition clustering yields of each of the simulated fragments are then estimated using the DBSCAN clustering algorithm and they are compared to the yields of the incident primary beam.
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