分类: 物理学 >> 核物理学 提交时间: 2025-02-19
Huang, Dr. Liangsheng
Xu, Dr. Shou-Yan
Liu, Prof. Yuntao
Liu, Miss Yi-Qin
Chen, Dr. Jianliang
Deng, Mr. Changdong
Huang, Dr. Ming-Yang
Rao, Mr. Li
Liu, Dr. Hanyang
Qi, Dr. Xin
摘要: The Rapid Cycling Synchrotron (RCS) in the China Spallation Neutron Source (CSNS) operates as a high-intensity proton accelerator. The coupled bunch instability was observed during the RCS beam commissioning, which highly limits the beam power. To investigate the dynamics of instability under increased beam power, a pulsed octupole magnet with a gradient of 900T/m3 is developed. The magnet system integrates an octupole magnet with a pulsed power supply. The field is carefully measured to examine the performance before installation into the tunnel. After the installation of the magnets, beam measurements are performed to confirm the effectiveness of the instability mitigation on an actual proton beam. The measurement results show that the instability can be suppressed by using the pulsed octupole magnet, particularly at the high energy stage in an acceleration cycle, meeting the requirements for stable operation of the accelerator. Additionally, when the instability is completely suppressed through chromaticity optimization, octupole magnets can significantly enhance the RCS transmission efficiency, which is crucial for controlling beam loss. The pulsed octupole magnet offers significant progress of beam stability in the RCS, providing valuable experience for further beam power enhancement.
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