973 RFQ 水冷调谐系统(英文)

辛文曲; 欧阳华甫; 徐韬光

doi:10.11804/NuclPhysRev.30.02.136

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973 RFQ 水冷调谐系统(英文)

辛文曲, 欧阳华甫, 徐韬光

文章导航 > 原子核物理评论 > 2013 > 30(2): 136-140

辛文曲, 欧阳华甫, 徐韬光. 973 RFQ 水冷调谐系统(英文)[J]. 原子核物理评论, 2013, 30(2): 136-140. doi: 10.11804/NuclPhysRev.30.02.136

引用本文:

辛文曲, 欧阳华甫, 徐韬光. 973 RFQ 水冷调谐系统(英文)[J]. 原子核物理评论, 2013, 30(2): 136-140. doi: 10.11804/NuclPhysRev.30.02.136

XIN Wenqu, OUYANG Huafu, XU Taoguang. Resonance Control Cooling System for 973 RFQ at IHEP[J]. Nuclear Physics Review, 2013, 30(2): 136-140. doi: 10.11804/NuclPhysRev.30.02.136

Citation:

XIN Wenqu, OUYANG Huafu, XU Taoguang. Resonance Control Cooling System for 973 RFQ at IHEP[J]. Nuclear Physics Review, 2013, 30(2): 136-140. doi: 10.11804/NuclPhysRev.30.02.136

973 RFQ 水冷调谐系统(英文)

doi: 10.11804/NuclPhysRev.30.02.136

中国科学院高能物理研究所,北京 100049

Resonance Control Cooling System for 973 RFQ at IHEP

Institute of High Energy physics, Chinese Academy of Sciences, Beijing 100049, China

摘要: 由于束流的传输效率对射频四极场加速器(RFQ) 中射频场的分布极其敏感，所以在RFQ 的运行过程中不再采用传统的调谐器调谐RFQ。水冷调谐的方法基本上不影响RFQ 射频场的分布，所以适用于RFQ 的调谐。中国科学院高能物理研究所为C-ADS、CSNS 预研RFQ 项目开发建造了一套水冷调谐系统，使用RF 相位差作为控制量进行RFQ 水冷调谐，相位差的控制精度达到了1°运行结果显示该系统满足了RFQ 的调谐需求。介绍了该系统的水冷系统、调谐控制系统和一些运行经验。Since the beam transmission of a Radio Frequency Quadrupole(RFQ) Accelerator is very sensitive to the field profile, the ordinary frequency tuning method by the local movable tuner is no more adopted in an RFQ operation. The tuning method by controlling cooling water temperature is widely adopted to tune the RFQ due to the less affect on the RFQ field profile. A Resonance Control Cooling System (RCCS) is developed and commissioned for the 973 RFQ，which is a R&D project for C-ADS and CSNS RFQ at IHEP. This system adopts the RF phase difference as control variable to tune the RFQ. The control accuracy of the RF phase difference is about 1°. The running of the 973 RFQ shows that the RCCS works very well and fully satisfies the operation requirement of the RFQ. In this paper, the water skid, resonance control system of the RCCS and the operation experiences will be presented.
- 射频四极场加速器 /
- 水冷调谐系统 /
- 水冷系统 /
- 控制系统
Abstract: Since the beam transmission of a Radio Frequency Quadrupole(RFQ) Accelerator is very sensitive to the field profile, the ordinary frequency tuning method by the local movable tuner is no more adopted in an RFQ operation. The tuning method by controlling cooling water temperature is widely adopted to tune the RFQ due to the less affect on the RFQ field profile. A Resonance Control Cooling System (RCCS) is developed and commissioned for the 973 RFQ，which is a R&D project for C-ADS and CSNS RFQ at IHEP. This system adopts the RF phase difference as control variable to tune the RFQ. The control accuracy of the RF phase difference is about 1°. The running of the 973 RFQ shows that the RCCS works very well and fully satisfies the operation requirement of the RFQ. In this paper, the water skid, resonance control system of the RCCS and the operation experiences will be presented.
- RFQ /
- RCCS /
- water-cooling skid /
- control system

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973 RFQ 水冷调谐系统(英文)

doi: 10.11804/NuclPhysRev.30.02.136

中国科学院高能物理研究所,北京 100049

收稿日期: 1900-01-01
修回日期: 1900-01-01
刊出日期: 2013-06-20

关键词:

摘要: 由于束流的传输效率对射频四极场加速器(RFQ) 中射频场的分布极其敏感，所以在RFQ 的运行过程中不再采用传统的调谐器调谐RFQ。水冷调谐的方法基本上不影响RFQ 射频场的分布，所以适用于RFQ 的调谐。中国科学院高能物理研究所为C-ADS、CSNS 预研RFQ 项目开发建造了一套水冷调谐系统，使用RF 相位差作为控制量进行RFQ 水冷调谐，相位差的控制精度达到了1°运行结果显示该系统满足了RFQ 的调谐需求。介绍了该系统的水冷系统、调谐控制系统和一些运行经验。Since the beam transmission of a Radio Frequency Quadrupole(RFQ) Accelerator is very sensitive to the field profile, the ordinary frequency tuning method by the local movable tuner is no more adopted in an RFQ operation. The tuning method by controlling cooling water temperature is widely adopted to tune the RFQ due to the less affect on the RFQ field profile. A Resonance Control Cooling System (RCCS) is developed and commissioned for the 973 RFQ，which is a R&D project for C-ADS and CSNS RFQ at IHEP. This system adopts the RF phase difference as control variable to tune the RFQ. The control accuracy of the RF phase difference is about 1°. The running of the 973 RFQ shows that the RCCS works very well and fully satisfies the operation requirement of the RFQ. In this paper, the water skid, resonance control system of the RCCS and the operation experiences will be presented.

English Abstract

辛文曲, 欧阳华甫, 徐韬光. 973 RFQ 水冷调谐系统(英文)[J]. 原子核物理评论, 2013, 30(2): 136-140. doi: 10.11804/NuclPhysRev.30.02.136

引用本文:

辛文曲, 欧阳华甫, 徐韬光. 973 RFQ 水冷调谐系统(英文)[J]. 原子核物理评论, 2013, 30(2): 136-140. doi: 10.11804/NuclPhysRev.30.02.136

XIN Wenqu, OUYANG Huafu, XU Taoguang. Resonance Control Cooling System for 973 RFQ at IHEP[J]. Nuclear Physics Review, 2013, 30(2): 136-140. doi: 10.11804/NuclPhysRev.30.02.136

Citation:

XIN Wenqu, OUYANG Huafu, XU Taoguang. Resonance Control Cooling System for 973 RFQ at IHEP[J]. Nuclear Physics Review, 2013, 30(2): 136-140. doi: 10.11804/NuclPhysRev.30.02.136