Pressure Profiles of HFRS Vacuum System
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摘要: 放射性次级束流分离器是强流重离子加速器装置中,连接增强器和高精度环形谱仪的束流输运线,用于传输重离子束流以及放射性次级束流。为了满足束流传输的要求,并维持相连增强器和高精度环形谱仪的极高真空,放射性次级束流分离器真空系统的平均压强应低于5×10-7 Pa。因此,需要验证真空系统设计方案的可行性,以及设计方案能否满足要求的压强范围。通过现有的同步储存环CSRm中的真空计监测数据以及软件BOLIDE的模拟结果对比,对真空压力计算软件VAKTRAK的使用方法和计算结果进行验证;采用VAKTRAK模拟计算不同真空参数下(流导、出气率以及泵速)放射性次级束流分离器真空系统的压力分布。根据计算结果,放射性次级束流分离器真空系统的平均压强可以达到1.79×10-7 Pa (H2),满足物理实验和工程设计的要求。通过模拟计算结果,放射性次级束流分离器真空系统的设计方案的可行性得到验证,系统设计的真空度满足要求。
HIAF Fragment Separator(HFRS) is connected with Booster Ring(BRing) and Spectrometer Ring (SRing) in the HIAF and used to transfer the ion beams and radioactive secondary beams. To satisfy the requirements of beam transmission and maintain the extremely high vacuum of BRing and SRing, the average pressure of HFRS vacuum system should be lower than 5×10-7 Pa. Therefore, the feasibility of the design scheme and whether the design scheme would fulfill the required vacuum range or not should be verified. Based on the measured data on the current sychrontron CSRm and the simulation results of BOLIDE, the calculation results of VAKTRAK are verified and then VAKTRAK is used to calculate the pressure profiles of different parameters(such as the conductance, out-gassing and pumping speed) for HFRS. According to the calculation results, the average pressure of HFRS vacuum system could be 1.79×10-7(H2) which achieves the required pressure for physics experiments and engineering design. According the calculation results of this paper, the feasibility of the designed HFRS vacuum system has been verified and the design of system satisfies the vacuum requirements.Abstract: HIAF Fragment Separator(HFRS) is connected with Booster Ring(BRing) and Spectrometer Ring (SRing) in the HIAF and used to transfer the ion beams and radioactive secondary beams. To satisfy the requirements of beam transmission and maintain the extremely high vacuum of BRing and SRing, the average pressure of HFRS vacuum system should be lower than 5×10-7 Pa. Therefore, the feasibility of the design scheme and whether the design scheme would fulfill the required vacuum range or not should be verified. Based on the measured data on the current sychrontron CSRm and the simulation results of BOLIDE, the calculation results of VAKTRAK are verified and then VAKTRAK is used to calculate the pressure profiles of different parameters(such as the conductance, out-gassing and pumping speed) for HFRS. According to the calculation results, the average pressure of HFRS vacuum system could be 1.79×10-7(H2) which achieves the required pressure for physics experiments and engineering design. According the calculation results of this paper, the feasibility of the designed HFRS vacuum system has been verified and the design of system satisfies the vacuum requirements. -
[1] RAO Yinong. Lifetime of Ion Beam Stored in HIRFLCSR[C]. Proceedings of the 14th International Confrence on Cyclotrons and their Applications. South Africa, 1995:358. [2] YANG Jiancheng, XIA Jiawen, XIAO Guoqing, et al. Nucl Instr Meth B, 2013, 317:263. [3] ZHANG Junhui, YANG Xiaotian, MENG Jun, et al. Vacuum, 2003, 7(02):27. (in Chinese) (张军辉, 杨晓天, 蒙峻, 等. 真空, 2003, 7(02):27.) [4] ZIEMANN V. SLAC-PUB 5962, Oct. 1992. [5] ZHANG Junhui, YANG Xiaotian, MA Xiangli, et al. Vacuum and Cryogenics, 2007, 13(1):28. (in Chinese) (张军辉, 杨晓天, 马向利, 等. 真空与低温, 2007, 13(1):28.) [6] Private communication with Alexander Smirnov. [7] ZIEMANN V. Vacuum, 2007, 81:866. [8] DA Daoan, QIU Jiawen, XIAO Xiangzheng, et al. Vacuum Design Manual[M]. 3ed. Beijing:National Defense lndustry Press, 1995:116. (in Chinese) (达道安, 邱家稳, 肖祥正. 真空设计手册[M]. 第3版. 北京:国防工业出版社, 1995:116.) [9] ZHAN Wenlong, XIA Jiawen, ZHAO Hongwei, et al. Nucl Phys A, 2008, 805:533c. [10] YANG Xiaotian, ZHANG Junhui, et al. Vacuum, 2001, 61:55. [11] XIA Jiawen, ZHAN Wenlong, WEI Baowen, et al. Chinese Physics C, 2009, 33(8):804. -
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