New chromaticity compensation approach and dynamic aperture increase in the SSRF storage ring 被引量：1

New chromaticity compensation approach and dynamic aperture increase in the SSRF storage ring

导出

摘要 Strong chromatic sextupoles used to compensate natural chromaticities in the third generation light source storage ring usually reduce dynamic aperture drastically. Many optimization methods can be used to find solutions that provide large dynamic apertures. This paper discusses a new optimization approach of sextupole strengths with step-by-step procedure, which is applied in the SSRF storage ring, and a better solution is obtained. Investigating driving terms generated by the sextupoles in every step can analyze their convergences and guide the weight setting among different terms in object function of the single resonance approach based on the perturbation theory. Strong chromatic sextupoles used to compensate natural chromaticities in the third generation light source storage ring usually reduce dynamic aperture drastically. Many optimization methods can be used to find solutions that provide large dynamic apertures. This paper discusses a new optimization approach of sextupole strengths with step-by-step procedure, which is applied in the SSRF storage ring, and a better solution is obtained. Investigating driving terms generated by the sextupoles in every step can analyze their convergences and guide the weight setting among different terms in object function of the single resonance approach based on the perturbation theory.

作者田顺强后接陈光玲刘桂民

机构地区 Shanghai Institute of Applied Physics

出处《Chinese Physics C》 SCIE CAS CSCD 北大核心 2008年第8期661-664,共4页 中国物理C（英文版）

基金 SSRF Project

关键词 SSRF storage ring chromaticity compensation nonlinear optimization dynamic aperture sextupole SSRF storage ring, chromaticity compensation, nonlinear optimization, dynamic aperture,sextupole

分类号 TL594 [核科学技术—核技术及应用]

引文网络
相关文献

参考文献10

1Tan Y R E,Boland M J,LeBlanc G. Proceedings of the Particle Accelerator Conference . 2005
2LIU G M et al. HEP & NP . 2006
3Streun A.OPA documentation, Version 2.1[]..1997
4Owen H,Jones J,Smith S.Proceedings of the European Particle Accelerator Conference[]..2002
5Tosi L,Bocchetta C J,Iazzourene F et al. Proceedings of the European Particle Accelerator Conference . 1994
6Owen H,Jones J,Smith S.Proceedings of the European Particle Accelerator Conference[]..2002
7Bengtsson J.The Sextupole Scheme for the Swiss Light Source[].SLSNote/.
8Bengtsson J. Proceedings of the European Particle Accel- erator Conference . 2006
9Tsumaki K,Kumagai N. Nuclear Instruments and Methods . 2006
10Terebilo A.Accelerator Toolbox for MATLAB. SLAC- PUB-8732 .

同被引文献7

1周雪梅.Measurement of optics for the SSRF storage ring in commissioning[J].Chinese Physics C,2009,33(S2):78-82. 被引量：1
2田顺强,张文志,李浩虎,张满洲,后接,周雪梅,刘桂民.Linear optics calibration and nonlinear optimization during the commissioning of the SSRF storage ring[J].Chinese Physics C,2009,33(S2):83-85. 被引量：1
3后接,田顺强,张满洲,徐毅,刘桂民.Studies of closed orbit correction and slow orbit feedback for the SSRF storage ring[J].Chinese Physics C,2009,33(2):145-150. 被引量：2
4陈建辉,张满洲,赵振.Orbit response matrix analysis and lattice periodicity restoration of the SSRF storage ring[J].Chinese Physics C,2009,33(9):785-788. 被引量：2
5冷用斌,阎映炳,袁任贤,周伟民.上海光源储存环工作点测量系统[J].强激光与粒子束,2010,22(10):2412-2416. 被引量：6
6张满洲,王坤,张庆磊,田顺强,姜伯承.DEPU对上海光源储存环的影响与补偿[J].强激光与粒子束,2017,29(7):104-108. 被引量：2
7DAIZhi-Min,LIUGui-Min,HUANGNan.Design of the SSRF storage ring magnet lattice[J].Nuclear Science and Techniques,2003,14(2):89-92. 被引量：1

引证文献1

1吴旭,田顺强,张庆磊,张文志.工作点反馈系统对同步辐射光源运行稳定性的提升（英文）[J].强激光与粒子束,2020,32(4):47-54. 被引量：2

二级引证文献2

1吴旭,田顺强,张文志.上海同步辐射光源工作点稳定性研究[J].原子能科学技术,2022,56(9):1815-1820. 被引量：1
2焦广为,田顺强,相升旺,朱亚,刘新忠,吴帅.同步辐射光源新增线站相关加速器安装与调试[J].核技术,2024,47(3):10-18.

1PENGYan-ling.An Approach to Chromaticity of K_4-homeomorphs[J].Chinese Quarterly Journal of Mathematics,2004,19(3):253-261.
2陈建辉,张满洲,赵振.Orbit response matrix analysis and lattice periodicity restoration of the SSRF storage ring[J].Chinese Physics C,2009,33(9):785-788. 被引量：2
3韩伯棠.CHROMATICITY OF q-TREES[J].Chinese Science Bulletin,1987,32(11).
4田顺强,后接,陈光玲,刘桂民.Analysis of sextupole effects on β function beating in the SSRF storage ring[J].Chinese Physics C,2008,32(7):576-579.
5Roslan Hasni,Ameen Shaman Ameen,Yee-Hock Peng,Hai-xing Zhao.Chromaticity of Complete 6-Partite Graphs with Certain Star or Matching Deleted Ⅱ[J].Acta Mathematicae Applicatae Sinica,2013,29(1):35-42.
6后接,田顺强,张满洲,徐毅,刘桂民.Studies of closed orbit correction and slow orbit feedback for the SSRF storage ring[J].Chinese Physics C,2009,33(2):145-150. 被引量：2
7ZhaoHaixing,LiuRuying,ZhangShenggui.CLASSIFICATION OF COMPLETE 5-PARTITE GRAPHS AND CHROMATICITY OF 5-PARTITE GRAPHS WITH 5n VERTICES[J].Applied Mathematics(A Journal of Chinese Universities),2004,19(1):116-124.
8马广明,赵振堂,刘建飞.Design of a higher harmonic cavity for the SSRF storage ring[J].Chinese Physics C,2008,32(4):275-279.
9许守彦,王生,安宇文,李志平.Study on the effects of chromaticity and magnetic field tracking errors at CSNS/RCS[J].Chinese Physics C,2014,38(11):68-71.
10Dong Jinyi, Cheng Xiaofang, Ding Jinlei, Fan Xueliang(Dept. of Thermal Science and Energy Engineering, University of Science and Technology of China, Hefei, Anhui 230027, P.R. China).Determination of Color Gamut of Higher Plant Leaves Using the Law of Additive Color Mixing[J].工程科学（英文版）,2007,5(2):168-172.

Chinese Physics C

2008年第8期

浏览历史

内容加载中请稍等...

New chromaticity compensation approach and dynamic aperture increase in the SSRF storage ring 被引量：1

参考文献10

同被引文献7

引证文献1

二级引证文献2

相关作者

相关机构

相关主题

浏览历史