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一种用于C-ADS低能束流传输线束流强度控制的新型可调限束光阑 被引量:3

A novel adjustable aperture for beam current controlling at China-ADS low energy beam transport line
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摘要 为了实现超导直线加速器束流强度的连续可调,并满足加速器在线稳定可靠运行,针对我国加速器驱动次临界系统(C-ADS)低能束流传输线(LEBT)的束流强度调控,提出了一种新型的可调限束光阑。可调限束光阑采用两个相对旋转的镜像对称转芯,转芯的孔径在某一范围内可以实现连续变化,以刮除不需要的外部粒子,提高束流品质,降低束损,最重要的是可实现束流强度的在线连续可调,并满足圆形束的要求。仿真和试验结果表明,在0~10 mA范围内,可以有效地卡掉不需要的外部粒子束流,并实现束流强度的在线连续调节。该装置为质子直线加速器提供了一种方便的束流调试方法,能够满足ADS直线加速器稳定可靠的在线运行。 A novel adjustable aperture is developed for the low energy beam transport line(LEBT)of the China Accelerator Driven Subcritical System(C-ADS).Two relatively rotating mirror-symmetry cores are adopted for the adjustable aperture to scrape unwanted outer particles,improve the beam quality and reduce the beam losses,and most of all,realize continuously tunable beam current and meet the requirement of round beam.The results of simulation and test show that the unwanted outer particles can be cut away and the beam current can be adjusted continuously online within the range of 0 to 10 mA.This device provides a convenient beam tuning method for the proton linear accelerator,which can satisfy the stable and reliable online operation of C-ADS linear accelerator.
作者 牛海华 李有堂 何源 张斌 王志军 陈伟龙 袁辰彰 贾欢 Niu Haihua;Li Youtang;He Yuan;Zhang Bin;Wang Zhijun;Chen Weilong;Yuan Chenzhang;Jia Huan(Lanzhou University of Technology,Lanzhou 730050,China;Institute of Modern Physics,Chinese Academy of Sciences,Lanzhou 730000,China)
机构地区 兰州理工大学机电工程学院 中国科学院近代物理研究所
出处 《强激光与粒子束》 EI CAS CSCD 北大核心 2020年第5期85-91,共7页 High Power Laser and Particle Beams
基金 Strategic Priority Research Program of Chinese Academy of Sciences(XDA21010202)。
关键词 可调光阑 束流调试 低能束流传输线 中国加速器驱动次临界系统 adjustable aperture beam commissioning LEBT C-ADS
分类号 TL5 [核科学技术—核技术及应用]
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  • 1CHAUVIN N, DELFERRIERE 0,DUPERRI-ER R, et al. Final design of the IFMIF-EVEDAlow energy beam transport line[C] // Proceedingsof PAC09. [S. 1. ]. [s. n. ],2009.
  • 2BATYGIN Y B. Particle-In-Cell code BEAM-PATH for beam dynamics simulations in linearaccelerators and beam lines[J]. Nuclear Instru-ments and Methods in Physics Research A,2005,539(3): 455-489.
  • 3ARMSTRONG D D,SCHNEIDER J D. Evalua-tion and minimization of aberration for a solenoidlens[J]. IEEE Transactions on Nuclear Science,1983,30(4): 2 793-2 794.
  • 4JI Qiang, RYNE R D,HOFMAN I. Spacecharge driven emittance growth in a 3D mis-matched anisotropic beam [J]. Physical ReviewLetters, 2004,92(17) : 174801.
  • 5TALMAN R,MALITSKY N,STULLE F.Emittance growth due to static and radiativespace charge forces in an electron bunch compres-sor [J]. Phys Rev ST Accel Beams, 2009, 12(1) : 014201.
  • 6COUSINEAU S,HOLMES J. Orbit benchmarkof space charge induced emittance growth in theCERN PS[C]//Proceedings of EPAC. [S. 1.].[s. n. ],2004: 2 221-2 223.
  • 7Thomae, R.,Gough, R.,Keller, R.,Leung, K.N.,Schenkel, T.,Aleksandrov, A.,Stockli, M.,Walton, R.Beam measurements on the H<sup>-</sup> source and low energy beam transport system for the Spallation Neutron Source. The Review of Scientific Instruments . 2002
  • 8WU Q,ZHANG Z M,SUN L T,et al. Review of Scientific and Instruments . 2014
  • 9WANG Zhijun,HE Yuan,WANG Wangsheng. Chinese Physics C . 2013
  • 10LI Haibo,SHEN Li,ZHOU Guozhong,et al. Nuclear Techniques . 2015

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强激光与粒子束
2020年 第5期

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