RF power coupling for the CSNS DTL 被引量：2

RF power coupling for the CSNS DTL

导出

摘要 The China Spallation Neutron Source （CSNS） drift tube linac （DTL） consists of four tanks and each tank is fed by a 2.5 MW klystron. Accurate predication of RF coupling between the RF cavity and ports is very important for DTL RF coupler design. An iris-type coupler is chosen to couple the RF power to the DTL accelerating cavity. The physical design of the DTL coupler and the calculations of RF coupling between the cavity and coupler are carried out. The results from the numerical simulations are in excellent agreement with the analytical results. The China Spallation Neutron Source （CSNS） drift tube linac （DTL） consists of four tanks and each tank is fed by a 2.5 MW klystron. Accurate predication of RF coupling between the RF cavity and ports is very important for DTL RF coupler design. An iris-type coupler is chosen to couple the RF power to the DTL accelerating cavity. The physical design of the DTL coupler and the calculations of RF coupling between the cavity and coupler are carried out. The results from the numerical simulations are in excellent agreement with the analytical results.

作者刘华昌彭军殷学军欧阳华甫傅世年

机构地区 Accelerator Center

出处《Chinese Physics C》 SCIE CAS CSCD 2011年第1期92-95,共4页 中国物理C（英文版）

关键词 DTL RF coupler coupling coefficient DTL, RF coupler, coupling coefficient

分类号 TL53 [核科学技术—核技术及应用]

引文网络
相关文献

参考文献9

1WEI J, FU S N et al. Chinese Physics C, 2009, 33(11): 1033-1042.
2Belomestnykh S. Review of High Power CW Couplers for Superconducting Cavities. Proc. of Workshop on High- Power Couplers for Superconducting Accelerators. 2002.
3YAN R Q. Basis of Microwave Technology (2). Beijing: Beijing Institute of Press, 1996. 126-128.
4GAO J. Nucl. Instrum. Methods A, 1991, 309:5.
5Han-Sung KIM et al. Journal of the Korean Physics Society, 2006, 48(4): 732-735.
6PENG J, SUN Z R, FU S N. Design of 132 MeV DTL for CSNS. Proc. of Linac 2006. 2006. 412-414.
7Kurennoy S S, Young L M. RF Coupler for High Power CW FEL Photo Injector. Proceedings of PAC2003. 2003. 3515.
8Kroll N, YU D. Particle Accelerators, 1990, 34:231-233.
9Sergey Kurennoy et al. RF Couplers for Normal Conducting Photo Injector of High Power CW FEL. Meeting of the American Physical Society. 2004. 125.

同被引文献9

1于成浩,柯明.基于激光跟踪仪的三维控制网测量精度分析[J].测绘科学,2006,31(3):25-27. 被引量：29
2FU S N, FANG S X, GUAN X L. A high- current RFQ accelerator for the ADS system in China[J]. Journal of Korean Physical Society, 2006, 48(4): 806-809.
3WEI J, FANG S X, CAO J S, et al. China Spallation Neutron Source: Accelerator design iterations and RD status[J]. Journal of Korean Physical Society, 2007, 50(5): 1 377-1 384.
4YOSHINO K, TAKASAKI E, NAITO F, et al. Development of a DTL quadrupole magnet with a new electroformed hollow coil for the JAERI/ KEK joint project [C] // Proceedings of Linac. Monterey: Is. n. 1, 2000: 569-571.
5于成浩,董岚,柯明,杜涵文,殷立新,赵振堂,黄开席.大尺寸激光跟踪仪三维控制网平面精度研究[J].测绘科学,2008,33(2):42-44. 被引量：18
6陈文军,马力祯,蔡国柱,崔治国,王少明,张小奇,华永平,袁建东,柴一亮,李玉春.武威重离子治癌装置高能束线的准直安装[J].强激光与粒子束,2015,27(8):237-241. 被引量：11
7刘华昌,彭军,巩克云,吴小磊,李阿红,李波,陈强,樊梦旭,王云,瞿培华,宋洪,关玉慧,赵晶晶,董岚,王生,傅世年.中国散裂中子源漂移管直线加速器研制进展[J].原子能科学技术,2015,49(B10):556-559. 被引量：16
8肖永川,欧阳华甫,薛康佳,刘盛进,曹秀霞,吕永佳,黄涛.中国散裂中子源RFQ的研制[J].核技术,2015,38(12):1-7. 被引量：9
9何振强,柯志勇,董岚,马娜,门玲鸰,梁静,罗涛,王铜,张晓辉.中国散裂中子源DTL漂移管的预准直[J].核技术,2017,40(5):12-16. 被引量：7

引证文献2

1刘华昌,彭军,巩克云,吴小磊,李阿红,李波,陈强,樊梦旭,王云,瞿培华,宋洪,关玉慧,赵晶晶,董岚,王生,傅世年.中国散裂中子源漂移管直线加速器研制进展[J].原子能科学技术,2015,49(B10):556-559. 被引量：16
2马娜,柯志勇,何振强,李波.CSNS漂移管直线加速器隧道高精度准直方法及精度分析[J].核技术,2018,41(11):33-37.

二级引证文献16

1何振强,柯志勇,董岚,马娜,门玲鸰,梁静,罗涛,王铜,张晓辉.中国散裂中子源DTL漂移管的预准直[J].核技术,2017,40(5):12-16. 被引量：7
2刘华昌,李阿红,彭军,樊梦旭,巩克云,瞿培华,李波,王云,陈强,吴小磊.漂移管直线加速器加速电场分布及稳定性调谐研究[J].原子能科学技术,2017,51(10):1874-1879. 被引量：5
3何泳成,李刚,金大鹏,吴煊,张玉亮.CSNS漂移管直线加速器水冷联锁系统设计[J].核电子学与探测技术,2017,37(6):585-589. 被引量：2
4马娜,柯志勇,何振强,李波.CSNS漂移管直线加速器隧道高精度准直方法及精度分析[J].核技术,2018,41(11):33-37.
5刘顺明,关玉慧,黄涛,王鹏程,刘佳明,谭彪,欧阳华甫.CSNS直线加速器真空系统及四极质谱检漏[J].真空与低温,2019,25(5):348-354. 被引量：3
6谢哲新,慕振成,荣林艳,李健,徐新安,周文中,王博,万马良,刘美飞,王云,李阿红,陈卫东,欧阳华甫,张宗花,乔际民.中国散裂中子源直线加速器高功率自动老炼平台研制[J].原子能科学技术,2020,54(3):564-570. 被引量：3
7李继红,冯光,倪晓晔,郑乐见.中国散裂中子源关键设备安装技术探讨[J].机电工程技术,2020,49(2):179-182. 被引量：3
8李继红,冯光.中国散裂中子源DTL工装设计[J].机械工程师,2020(5):65-66.
9康明涛,黄涛,张玉亮,何泳成,王金灿,金大鹏,吴煊,郭凤琴,朱鹏,王林,薛康佳.CSNS加速器真空控制系统的设计与实现[J].强激光与粒子束,2020,32(8):62-68. 被引量：4
10Kang Mingtao,Zhang Yuliang,Jin Dapeng,He Yongcheng,Zhan Mingchuan,Zhu Peng,Wu Xuan,Guo Fengqin,Wang Lin.The machine protection system for CSNS[J].Radiation Detection Technology and Methods,2021,5(2):273-279. 被引量：1

1熊正锋,郑曙昕,邢庆子,关遐令.The radio-frequency design of an iris-type coupler for the CPHS radio-frequency quadrupole[J].Chinese Physics C,2012,36(1):96-100.
2魏涛,王生,邱静,唐靖宇,秦庆.Beam-loss driven injection optimization for CSNS/RCS[J].Chinese Physics C,2010,34(2):218-223.
3张国前.DTL与非门状态分析[J].宁夏师范学院学报,1996,27(3):18-19.
4万东.基于DTL技术的宽带网络流量管理[J].电信技术,2005(11):19-21.
5李浚沛,徐慧君,顾卫军.平板裂缝天线的功率耦合装置[J].现代雷达,1992,14(4):86-93. 被引量：3
6恩智浦针对L波段雷达应用推出最高速RF输出功率器件[J].半导体技术,2008,33(12):1150-1151.
7LI Changchun (National Lab.of Molecular and Bimolecular Electronic,Southeast University,Nanjing 210096,CHN) LUO Fei,TAO Baoqi (Institute of Smart Materials and Structures,Nanjing University of Aeronautics and Astronautics,Nanjing 210016,CHN).Coupling Character of Polarization Maintaining Optical Fiber Under the Condition of Bend[J].Semiconductor Photonics and Technology,1997,3(2):20-24.
8阿布力米提.阿布力克木.TS-10 DAM 10kW发射机特殊故障处理[J].西部广播电视,2016,37(4):194-194.
9李晓,孙虹,龙巍,赵发成,张春林.Design and performance of the LLRF system for CSNS/RCS[J].Chinese Physics C,2015,39(2):65-69. 被引量：2
10殷学军,李阿红,肖永川,陈强,刘华昌,巩克云,傅世年.Preliminary study on the RF tuning of CSNS DTL[J].Chinese Physics C,2014,38(2):70-74. 被引量：2

Chinese Physics C

2011年第1期

浏览历史

内容加载中请稍等...

RF power coupling for the CSNS DTL 被引量：2

参考文献9

同被引文献9

引证文献2

二级引证文献16

相关作者

相关机构

相关主题

浏览历史