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激光抽运铷原子频标的实验研究 被引量:2

Experiment of Diode Laser Pumped Rubidium Frequency Standards
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摘要 研制了激光抽运铷原子频率标准 ,对其多种参数及指标进行了测量 ,分析并提出了如何提高指标的相应措施。 The preliminarily laser pumped Rb frequency standards have been described in this paper, some parameters have been measured. How to improve its stability is discussed.
作者 黄学人 涂鲜花 梅刚华 朱熙文
机构地区 中国科学院武汉物理与数学研究所波谱与原子分子国家重点实验室
出处 《中国激光》 EI CAS CSCD 北大核心 2002年第6期533-536,共4页 Chinese Journal of Lasers
关键词 激光抽运 铷原子 半导体激光器 频率标准 laser pumping, rubidium frequency standards, diode laser
分类号 O431.2 [机械工程—光学工程]
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参考文献12

  • 1J. T. Liu, P. T Homan, L. Zhang et al.. Light shift measurements in a diode-laser-pumped Rb^87 Maser [C].Proc 4^th Eurpean Frequency and Time Form, 1990. 157-159
  • 2G. Mileti, J. Q. Deng, F. L. Walls et al.. Recent progress in laser pumped Rb gas-call frequency standards[C]. Proc. 1996 IEEE International Freq. Contr.Symp., 1996. 1066
  • 3F. Levi, C. NoVero, A. Godone et al.. Analysis of the light shift effect in the Rb^87 frequency standards [ J ].IEEE Trans. on IM, 1997, 46(2):126-129
  • 4L. L. Lewis, M. Feldman. Optical pumping by lasers in atomic frequency standards [C]. Proc. 35^th Annual Freq.Contr. Symp., 1981. 612-624
  • 5H. G. Robinson, C. E. Johnson. A new heart for Rb frequency standards [J]. IEEE Trans. IM, 1983, 32(3) :198-201
  • 6J. C. Campro, R. P. Fmeholz. Fundamental stability limits for the diode laser pumped rubidium atomic frequency standards [J]. J. Appl. Phys., 1986, 59(10) :3313-3317
  • 7M. Hashimoto, M. Ohtsu. Experiments on a semiconductor laser pumped Rb atomic clock [ J ]. IEEE J. Quantum Electron., 1987, 23(4):446-451
  • 8J. Q. Deng, G. Mileti, D. A. Jennings. Improving the short-term stability of laser pumped Rb clock by reducing the effects of the interrogation oscillator [C]. IEEE 1997 Inter. Freq. Contr. Symp., 1997. 438-445
  • 9G. Mileri,J. Q. Deng, F. L. Walls et al.. Laser-pumped rubidium frequency standards: New analysis and progress [J]. IEEE J. Quantum Electron., 1998, 34(2):233-237
  • 10Wang Yiqiu, Wang Qingji, Fu Jishi et al.. The Theory of Frequency Standards [M]. Beijing: Science Press, 1986.378 (in Chinese)

同被引文献16

  • 1董太乾.被动式铷原子频标近十余年来发展概况[J].陕西天文台台刊,1994,17(A00):24-26. 被引量:1
  • 2LEWIS L L, FELDMAN M. Optical pumping by lasers in atomic frequency standards[C]//Proceedings of IEEE Annual Frequency Control Symposium, 1981: 612-624.
  • 3HASHIMOTO M, OHTSU M. Experiments on a semiconductor laser pumped rubidium atomic clocks[J]. IEEE J. Quant. Elect., 1987, 23(4): 446-451.
  • 4BHASKAR N D. Potential for improving the rubidium frequency standard with a novel optical pumping scheme using diode lasers[J]. IEEE Trans. Ultra. Ferro. and Freq. Contr., 1995, 42(1): 15-20.
  • 5MILETI G, DENG J Q, WALLS F L, et al. Recent progress in laser-pumped rubidium gas cell frequency stability[C]//FrequencyControl Symposium, 50th Proceedings of the 1996 IEEE International, 1996: 1066-1072.
  • 6DENG J Q, MILETI G, JENNINGS D A, et al. Improving the short-term stability of laser pumped Rb clocks by reducing the effects of the interrogation oscillator[C]//51st Proc. of IEEE Int. Freq. Contr. Symp., 1997: 438-445.
  • 7MILETI G, DENG J Q, WALLS F L, et al. Laser-pumped rubidium frequency standard: new analysis and progress[J]. IEEE J. Quant. Elect., 1998, 34(2): 233-237.
  • 8CAMPARO J C, COFFER J G, TOWNSEND J J. Reducing PM-to-AM conversion and the light-shift in laser-pureed, vapor-cell atomic clocks[C]//Proe. IEEE Int. Freq. Contr. Symp. California: USA, 2004: 134-136.
  • 9LEVI F, NOVERO C, GODONE A, et al. Analysis of the light shift effect in the 87Rb frequency standard[J]. IEEE Trans. Inst. & Meas, 1997, 46(2): 126-129.
  • 10AFFOLDERBACH C, ANDEREEVA C, CARTALEVA S, et al. Light-shift suppression in laser optically pumped vapour-cell atomic frequency standards[J]. Appl. Phys. B, 2005, 80(7): 841-848.

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二级引证文献4

中国激光
2002年 第6期

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