医用重离子回旋加速器引出系统设计

紧凑型回旋加速器作为重离子医学专用装置同步加速器的注入器，其引出系统设计所用的磁场为TOSCA模型计算磁场。通过单粒子轨道计算确定引出系统的元件类型及基本参数；通过多粒子跟踪确定最终的元件参数和束流参数。为了提高引出效率，改善引出束流品质，在引出位置磁场梯度较大的位置，安放了一块C型磁铁，以改善此处的磁场梯度。同时，为了消除此C型磁铁对主磁场的影响，在此区域安放了一对线圈。计算结果表明引出系统的设计能够保证引出束流的强度和品质符合同步加速器的要求。

Abstract

A compact cyclotron as the injector of a synchrotron which forms the heavy ion medical machine is being designed and constructed at Institute of Modern Physics, China. The required high intensity and high beam quality of the extraction beam make it difficult to design the extraction system. The magnetic field used in the design is calculated from TOSCA model. The single particle orbit is calculated to determine component types and basic parameters of the extraction system. The multi-particle tracking is done to determine the final component parameters and beam parameters. In order to improve the efficiency and beam quality of the extraction system, a C-type magnet is placed at the location, where the magnetic field gradient is very large. A pair of coil is used to eliminate the effect of the C-type magnet on the main magnetic field. Detailed calculations show the extraction beam intensity and beam quality can meet the requirement of the synchrotron.

参考文献

[1] 肖国青，张红，李强，等.中国科学院近代物理研究所重离子束治癌进展［J］.原子核物理评论, 2007, 24(2):85-88.(Xiao Guoqing, Zhang Hong, Li Qiang, et al. Progresses of heavy ion cancer therapy in IMP. Nuclear Physics Reviews, 2007, 24(2):85-88)

[2] 王义芳．SSC注入引出系统［Ｒ］．兰州重离子研究装置进展报告， 1983, 2：16-25.(Wang Yifang. Injection system and ejection system of SSC. Progress Report of Heavy Ion Research Facility in Lanzhou, 1983, 2：16-25)

[3] 王义芳．SSC注入引出系统的元件设计参数［Ｒ］．兰州重离子研究装置进展报告， 1984, 3：95-105.(Wang Yifang. Designing parameters of the components for the injection and ejection system. Progress Report of Heavy Ion Research Facility in Lanzhou, 1984,3: 95-105)

[4] 王义芳．SSC注入效率计算［Ｒ］．兰州重离子研究装置进展报告， 1984, 3：106-112.(Wang Yifang. Injection efficiency of SSC. Progress Report of Heavy Ion Research Facility in Lanzhou, 1984, 3：106-112)

[5] 李小妮，原有进，何源，等.分离扇回旋加速器的接受度及效率［J］ .强激光与粒子束, 2010, 22(9):2133-2137.(Li Xiaoni, Yuan Youjin, He Yuan, et al. Acceptance and efficiency of sector-separated cyclotron. High Power Laser and Particle Beams, 2010, 22(9):2133-2137)

[6] Borisov O N, Gikal B N, Gulbekyan G G, et al. Beam extraction system from DC60［C］//Proc of 18th International Conference on Cyclotron and Their Application. 2007:24-26.

[7] Brutigam W, Brings R, Gad N, et al. Extraction of D-beams from the cyclotron JULIC for injection into the cooler synchrotron COSY［C］//Proc of 17th International Conference on Cyclotron and Their Application. 2001:123-125.

[8] Vandeplassche D, Beeckman W, Kleeven W, et al. Extraction simulations for the IBA C70 cyclotron［C］//Proc of 18th International Conference on Cyclotron and Their Application. 2007:63-65.

[9] 姚红娟，张天爵，郑侠，等.CYCIAE-100轴向注入线设计和中心区束流匹配［J］.强激光与粒子束, 2013, 25(2):471-476.(Yao Hongjuan, Zhang Tianjue, Zheng Xia, et al. Axial injection line design and central region beam matching study for CYCIAE-100. High Power Laser and Particle Beams, 2013, 25(2):471-476)

[10] 张天爵，姚红娟，李振国，等.紧凑型回旋加速器物理问题及调束技术［J］.强激光与粒子束, 2013, 25(1):104-108.(Zhang Tianjue, Yao Hongjuan, Li Zhenguo, et al. Physical problems and beam test compact cyclotron. High Power Laser and Particle Beams, 2013, 25(1):104-108)

[11] Yao Hongjuan, Zhang Tianjue, Lü Yinlong, et al. The study and design of spiral inflector and central region for CYCIAE-100 cyclotron［C］//Proc of 18th International Conference on Cyclotrons and Their Applications. 2007:57-59.

郝焕锋, 赵红卫, 姚庆高, 王兵, 宋明涛, 张金泉. 医用重离子回旋加速器引出系统设计[J]. 强激光与粒子束, 2013, 25(11): 2991. Hao Huanfeng, Zhao Hongwei, Yao Qinggao, Wang Bing, Song Mingtao, Zhang Jinquan. Design of the extraction system of heavy ion medical cyclotron[J]. High Power Laser and Particle Beams, 2013, 25(11): 2991.

医用重离子回旋加速器引出系统设计

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