1. Performance of the Secondary Electrons Profile Monitor for the scanning gantry in the Heavy Ion Medical Machine
- Author
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Chuan Huang, S. M. Li, Peilin He, Zhi-Guo Xu, Juan Li, Min Li, Zeen Yao, Ruishi Mao, Y. B. Chen, T. Liu, X. Liu, Peng Li, Yaoyao You, Zi-Wei Lu, Xin-Cai Kang, L. P. Yao, Li-Min Duan, Jiajian Ding, He-Run Yang, Yongchun Feng, Hang Ren, Qianshun She, and You-Jin Yuan
- Subjects
Physics ,Nuclear and High Energy Physics ,Range (particle radiation) ,Microchannel ,business.industry ,Flatness (systems theory) ,Electron ,01 natural sciences ,Secondary electrons ,030218 nuclear medicine & medical imaging ,03 medical and health sciences ,0302 clinical medicine ,Optics ,Magnet ,0103 physical sciences ,Ionization chamber ,business ,010303 astronomy & astrophysics ,Instrumentation ,Beam (structure) - Abstract
A Secondary Electrons Profile Monitor (SEPM) is developed as part of the beam dose delivery system in a clinical gantry of the Heavy Ion Medical Machine (HIMM). With the purpose of less disturbance to the beam, a thin foil with a thickness of 0 . 7 μ m and an accelerating grid with a diameter of 15 μ m are employed to produce and accelerate the secondary electrons, and two microchannel plates (MCPs) are used to multiply the electrons. Providing the real-time information of beam size, position, flatness, and symmetry in front of the scanning magnet, the beam monitor features an active area of 989 mm 2 , beam intensities between 1.0 × 1 0 3 to 1.0 × 1 0 8 particles per pulse (ppp) and a wide range of beam energies. A prototype is tested at the horizontal treatment room of the HIMM. Using different beam positions, sizes, and energies of 12C 6 + beams, test experiments show that the beam monitor maintains good consistency with a Multi-Strip Ionization Chamber (MSIC). Compared to the MSIC, the SEPM shows a better signal-to-noise ratio (SNR) and higher sensitivity to the variation of the beam.
- Published
- 2021
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