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HIRFL-CSR实验环电子冷却装置磁场测量
引用本文:冒立军,杨晓东,李杰,卢旺,王志学,燕宏斌,张玮,张军辉,赵红卫. HIRFL-CSR实验环电子冷却装置磁场测量[J]. 强激光与粒子束, 2005, 17(7): 1106-1110
作者姓名:冒立军  杨晓东  李杰  卢旺  王志学  燕宏斌  张玮  张军辉  赵红卫
作者单位:中国科学院,近代物理研究所,甘肃,兰州,730000;中国科学院,研究生院,北京,100039;中国科学院,近代物理研究所,甘肃,兰州,730000;俄罗斯科学院,核物理研究所,新西伯利亚,630090
基金项目:国家重大科学工程HIRFL-CSR冷却储存环项目资助课题
摘    要: 在HIRFL-CSR实验环电子冷却装置上采用了独立的高精度螺线管串联产生纵向磁场的设计,获得很高的冷却段磁场平行度。使用霍尔片测量磁场的分布,使用磁针测磁方法测量冷却段磁场的磁轴偏角,并根据测量及计算结果对单个线圈磁轴进行微调。测量及调试结果表明,在施加电流为额定电流的一半时,冷却段磁感应强度为0.078 T,剩余磁场小于2×10-4 T,磁场不平行度小于1×10-4,达到了预期的设计目标。

关 键 词:电子冷却  磁场测量  磁场平行度
文章编号:1001-4322(2005)07-1106-05
收稿时间:2004-09-30
修稿时间:2004-09-30

Magnetic field measurement of HIRFL-CSR experimental ring electron cooling device
Mao Li-jun,YANG Xiao-dong,LI Jie,LU Wang,WANG Zhi-xue,YAN Hong-bin,ZHANG Wei,ZHANG Jun-hui,ZHAO Hong-wei,BINP Electron Cooler Group. Magnetic field measurement of HIRFL-CSR experimental ring electron cooling device[J]. High Power Laser and Particle Beams, 2005, 17(7): 1106-1110
Authors:Mao Li-jun  YANG Xiao-dong  LI Jie  LU Wang  WANG Zhi-xue  YAN Hong-bin  ZHANG Wei  ZHANG Jun-hui  ZHAO Hong-wei  BINP Electron Cooler Group
Affiliation:1. Institute of Modern Physics, Chinese Academy of Sciences, P.O.Box 31, Lanzhou 730000, China;2. Graduate School of the Chinese Academy of Sciences, Beijing 100039, China;3. Budker Institute of Nuclear Physics, Russian Academy of Science, Novosibirsk 630090, Russia
Abstract:The cooling time and cooling efficiency in electron cooling device strongly depend on the transverse temperature of electron beam. In order to reduce this temperature, a new type of cooling section solenoid composed of 68 coils was used in the HIRFL-CSR electron cooling device to produce a high parallelism magnetic field. With the Hall probe, the components of the magnetic field along the ion beam orbit were measured, and using the compass method the magnetic field parallelism in cooling section was measured. According to the measured results, the magnetic axis angle of each coil with respect to the geometric axis was regulated correspondingly. The magnetic field nonparallelism in the cooling section less than 1×10~(-4) was achieved and a magnetic induction strength of 0.078 T was obtained.
Keywords:Electron cooling   Magnetic field measurement   Magnetic field parallelism
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