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低温超导微波频率源的实验研究 被引量:2

A study of cryogenic superconducting microwave frequency source
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摘要 针对低温超导微波频率源的研制,通过理论分析和仿真设计,得到了其优化设计方案,主要涉及高Q值超导腔、高稳定低温环境及锁相稳频环路等组件/技术的研究,并完成了系统闭环实验测试。实验表明,超导腔的Q值最高达到1.9×109,低温环境温度达到1.6 K,温度稳定度优于0.000 4 K,微波源的频率稳定度最高可达到4.6×10-15/1s。 A optimized design of cryogenic superconducting microwave frequency source is achieved based on theory analysis and computer simulation. The design involves superconducting cavity with high quality factor, highly stable and cryogenic environment, phase-looked loop and so on. The closed-loop tests were completed and the experiments show that the quality factor of cavity reaches 1.9×109, the environment temperature is 1.6 K, the temperature stability is better than 0.000 4 K and the frequency stability for 1 s reaches 4.6×10-15.
作者 王暖让 李陟 杨永军 年丰 高连山
机构地区 北京无线电计量测试研究所计量与校准技术重点实验室 中国航天科工集团第二研究院研究生院 北京长城计量测试研究所
出处 《时间频率学报》 CSCD 2015年第2期65-72,共8页 Journal of Time and Frequency
基金 国防技术基础科研资助项目(J042011C001)
关键词 频率标准 超导稳频振荡器 微波腔 品质因数 frequency standard superconducting cavity stabilized oscillator microwave cavity quality factor
分类号 TN752 [电子电信—电路与系统]
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参考文献19

  • 1王暖让,年丰,高连山.超导稳频振荡器微波腔的优化设计[J].时间频率学报,2013,36(1):9-15. 被引量:1
  • 2葛明骐,赵升初,孙虹,高杰.1.3GHz单cell高梯度低损耗超导腔设计研究[J].高能物理与核物理,2006,30(4):354-358. 被引量:2
  • 3郝建奎,焦飞,黄森林,朱风,赵夔.提高射频超导加速腔性能的表面干式处理研究[J].物理学报,2005,54(7):3375-3379. 被引量:2
  • 4温华明,严陆光,林良真.超导在加速器中的应用概况[J].低温与超导,2005,33(1):46-49. 被引量:9
  • 5N. S. Azaryan,M. A. Baturitsky,Yu. A. Budagov,V. V. Glagolev,D. L. Demin,S. V. Kolosov,A. A. Kurayev,L. M. Onishchenko,T. L. Popkova,A. O. Rak,A. K. Sinitsyn,G. V. Trubnikov,G. D. Shirkov,N. M. Shumeiko.Measuring of ultrahigh unloaded Q factor using excitation of a superconducting cavity by the electron beam[J]. Physics of Particles and Nuclei Letters . 2013 (7)
  • 6B.P. Xiao,C.E. Reece,M.J. Kelley.Superconducting surface impedance under radiofrequency field[J]. Physica C: Superconductivity and its applications . 2013
  • 7K. Watanabe,S. Noguchi,E. Kako,K. Umemori,T. Shishido.Development of the superconducting rf 2-cell cavity for cERL injector at KEK[J]. Nuclear Inst. and Methods in Physics Research, A . 2013
  • 8N. Azaryan,M. Baturitsky,Yu. Budagov,V. Glagolev,D. Demin,I. Kizhlai,S. Kolosov,A. Kurayev,T. Popkova,A. Rak,A. Sinitsyn,G. Trubnikov,G. Shirkov.Computation of single-cell superconducting niobium cavity for accelerator of electrons and positrons[J]. Physics of Particles and Nuclei Letters . 2012 (2)
  • 9N.-C Yeh,D.M Strayer,V.L Anderson,N Asplund.Superconducting-cavity-stabilized oscillators (SCSO) for precise frequency measurements[J]. Physica B: Physics of Condensed Matter . 2000 (1)
  • 10NAND N R,PARKER S R,IVANOV E N,et al.Resonator power to frequency conversion in a cryogenic sapphire oscillator. Applied Physics . 2013

二级参考文献21

  • 1.[EB/OL].http ://tesla.desy.de/new pages/TDR CD/Part Ⅱ /chapter01/chapter01.pdf,.
  • 2Brinkmann R, Fiottmann K, Rossbach J et al. TESLA Technical Design Report, DESY 2001-11, Hamburg, Germany.
  • 3Worldwide consensus of particle physicists, superconductivity for future particle accelertaor project, http ://www. desy.de/html/aktuelles/tesla_entscheid_tech_en. html.
  • 4Proch D. Technological & Cryogenic Challenges of Superconducting RF Accelerator Systems, presented on ICEC20,Beijing, 11-14.
  • 5Tsuyoshi Tajima, Possibility of MgB2 Application to Superconducting Cavities, Proceedings of EPAC2002, Paris France,2289-2291.
  • 6Adolphsen C.Cost and Operational Implications of the Gradient Choice,1st ILC-WS.2004
  • 7Saito K et al.Proc.of the 29th Linear Accelerator Meeting.2004.81-83
  • 8Saito K et al.Proc.of the SRF2001.2001.588-590
  • 9Singer W et al.Proc.of the SRF2001.2001.170-176
  • 10Sekutowicz J et al.Proc.of the 2003 Particle Accelerator Conf.2003.1395-1397

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时间频率学报
2015年 第2期

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