期刊文献+

束流轨道与相关环境参数的同步诊断技术

Synchronous measurement of beam orbit and relative environment parameters
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摘要 粒子加速器由于受地基振动、环境温度、热效应等因素的影响,导致束流位置探头(BPM)所在真空盒的机械中心相对四极铁磁中心的漂移较大,因此很难提高束流轨道的绝对测量精度。探索利用电容式探头实时检测该漂移量的方法。首先分析了电容式探头的测量原理,并设计了轨道振动同步诊断方案,然后设计了专用探头,并利用数据采集设备对探头的线性度、精度和频率响应进行实验室测试。结果显示电容式探头能检测到2μm的相对位移,且可有效检测300Hz以下的振动频率,可用于束流轨道与相关环境参数的同步诊断。 The mechanical center of beam position monitor (BPM) vacuum tune in particle accelerator can be drifted comparatively large away from the magnetic center of quadrupole under the environment of foundation vibration,temperature,thermal effects,etc.We tried to apply capacitor sensor to real time drift monitoring.Firstly,we analyzed the capacitor's measurement principle,and designed the scheme of synchronous measurement of beam orbit vibration.After that,we made a dedicated test capacitor sensor,and tested the sensor's linearity,resolution and frequency response with data acquisition instruments in laboratory.Results show that it can monitor 2 μm relative movement and up to 300 Hz vibration frequency.Capacitor sensors can be applied to the synchronous measurement of beam orbit and relative environment parameters.
出处 《强激光与粒子束》 EI CAS CSCD 北大核心 2014年第1期270-274,共5页 High Power Laser and Particle Beams
基金 国家自然科学基金项目(11105211 11075198)
关键词 束流轨道 绝对测量 电容探头 同步诊断 beam orbit absolute measurement capacitor sensor synchronous measurement
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参考文献13

  • 1Claude J. SOLEIL Libera performance[C]//Libera Workshop. 2007.
  • 2Bartolini R, Huang H, Kay J, et al. Analysis of beam orbit stability and ground vibrations at the diamond storage ring[C]//Proc EPAC, 2008.
  • 3Simos N, Fallier M, Amiek H. Comparative study of vibration stability at operating light source facilities and lessons fearned in achieving NSLS II stability goals[C]//Proc EPAC. 2008.
  • 4Chiu P C, Kuo C H, Hu K H, et al. Orbit stability observation of the Taiwan light souree[C]//Proc PAC. 2009.
  • 5Lill R, Yang B, Decker G, et al. Studies of APS storage ring vacuum chamber thermal mechanical effects and their impact on beam stability [C]//Proc BIW 10. 2010.
  • 6Kim Y C, Kwon S J, Park S J, et al. Investigation of environmental factors affecting electron beam orbit at PLS storage ring[C]//Proc EP- AC. 2002.
  • 7李建伟,孙葆根,曹涌,卢平.合肥光源BPM真空室位移监测系统[J].强激光与粒子束,2009,21(7):1069-1073. 被引量:1
  • 8et al. Mechanical staDility analysis of BPM support at SSRF[J]. Chinese Physics C, 2008, 32(zl):28.
  • 9Nadolski L S, Cassinari L, Daguerre J P, et al Bearn positioa orbit stability improvement at SOLEIIE[C]//Lroc PAC. 2009.
  • 10Christou C, I)obbing J A, Fielder R, et al. First eighteen months of top up at Diamond light souree[C]//Proc IPAC. 2010.

二级参考文献19

  • 1冷用斌,阎映炳,周伟民,袁任贤.用束流位置监测器精确测量储存环流强[J].强激光与粒子束,2010,22(12):2973-2978. 被引量:8
  • 2李为民,刘功发,李川,鲍循,宣科,王季刚,郭卫群.NSRL二期工程中加速器控制系统的改造[J].中国科学技术大学学报,2007,37(4):359-363. 被引量:4
  • 3宣科,王琳,王季刚,李为民,刘功发,李川,徐宏亮,鲍循,郭卫群.合肥光源束流轨道慢反馈系统[J].中国科学技术大学学报,2007,37(4):497-499. 被引量:3
  • 4Kang H S,Lee W W,Park I S,et al.Compensation of BPM chamber motion in PLS orbit feedback system[C]//Proc of PAC2007.2007:290-292.
  • 5Tsai Z D,Lee D S,Kuan C K,et al.The effect of improving the temperature variation at the SRRC storage ring[C]//Proc of EPAC 2000.2000:2483-2485.
  • 6Tejima M,Arinaga M,Ieiri T,et al.Movement of BPMs due to thermal stress in KEKB[C]//Proc of PAC 2005.2005:3253-3255.
  • 7Safranek J,Singh O,Solomon L,et al.Orbit stability improvement at the NSLS X-ray ring[C]//Proc of PAC 1995.1995:2711-2713.
  • 8Cao Yong,Sun Baogen,He Duohui,et al.Measurement and analysis of movement of BPM vacuum chamber for HLS[J].Chinese Physics C,2008,32(S1):127-129.
  • 9Incremental Length Gauges,RF20X Series[S/OL].Technical description,manual,RIFTEK,http://www.riftek.com/resource/download/rf200_riftek_eng.pdf.
  • 10Lai Longwei, Leng Yongbin, Yi Xing, et al. The study and implementation of signal processing algorithm for digital beam position monitor [C]//Prof of PAC 2011. 2011 :414-416.

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