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CN 34-1054/N

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Theoretical analysis of Unlocked Circular polarized erbium-doped fiber ring laser gyroscope based on Faraday effect

  • 1.

    Department of Electronic Engineering and Information Science, University of Science and Technology of China, Hefei 230027, China

  • 2.

    Anhui Key Laboratory Optoelectronic Science and Technology, Hefei 230027, China

  • 3.

    Key Laboratory of Electromagnetic Space Information, Chinese Academy of Science, Hefei 230027, China

Cite this:
https://doi.org/10.3969/j.issn.0253-2778.2015.01.004
  • Received Date: 24 April 2014
  • Accepted Date: 29 July 2014
  • Rev Recd Date: 29 July 2014
  • Publish Date: 30 January 2015
    Abstract

  • Abstract

    Faraday medium was introduced into circular polarized erbium-doped fiber ring laser gyroscope to break the frequency-locked phenomenon. Using Jones matrix, the polarization of Eigen polarization of the laser was proposed. Compared with the laser without Faraday medium, the polarization has not changed. Meanwhile, the parsing expression of the output signal of the gyro was deduced, which indicated that the unlocked fiber ring laser gyroscope can be realized due to the introduction of the Faraday effect.

    Abstract

    Faraday medium was introduced into circular polarized erbium-doped fiber ring laser gyroscope to break the frequency-locked phenomenon. Using Jones matrix, the polarization of Eigen polarization of the laser was proposed. Compared with the laser without Faraday medium, the polarization has not changed. Meanwhile, the parsing expression of the output signal of the gyro was deduced, which indicated that the unlocked fiber ring laser gyroscope can be realized due to the introduction of the Faraday effect.
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    • References(8)
  • [1]
    Kim S K, Kim H K, Kim B Y. Er3+-doped fiber ring laser for gyroscope application[J]. Optics. Letters, 1994, 19(22): 1 810-1 812.
    [2]
    Kim H K, Kim S K, Park H G, et al. Polarimetric fiber laser sensors [J]. Optics Letters, 1993, 18(4): 317-319.
    [3]
    王许旭. 应用于陀螺的圆偏振双向掺铒光纤环形腔激光器[D]. 合肥: 中国科学技术大学, 2007.
    [4]
    Sunada S, Inagakiet T S, Harayama T. Ring Laser Gyroscope without lock in phenomenon [J]. Physical Review A, 2008, 78(5): 1-8.
    [5]
    Schwartz S, Feugnet G, Lariontsev E, et al. Oscillation regimes of a solid-state ring laser with active beat note stabilization: From a chaotic device to a ring laser gyroscopes[J]. Physical Review A, 2007,76(2): 23-32.
    [6]
    苏觉. 激光型光纤传感器在电流测量和光纤激光陀螺中的应用[D]. 合肥: 中国科学技术大学, 2009.
    [7]
    Su Jue, Qian Jingren. Lock-in Effect in Fiber Ring Laser Gyros[J]. Chinese Journal of Lasers, 2010, 37(10): 2 487-2 490.
    苏觉, 钱景仁. 光纤环形腔激光陀螺中的闭锁效应[J].中国激光, 2010, 37(10): 2 487-2 490.
    [8]
    廖延彪. 偏振光学[M]. 北京: 科学出版社, 2003.
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    [1]
    Kim S K, Kim H K, Kim B Y. Er3+-doped fiber ring laser for gyroscope application[J]. Optics. Letters, 1994, 19(22): 1 810-1 812.
    [2]
    Kim H K, Kim S K, Park H G, et al. Polarimetric fiber laser sensors [J]. Optics Letters, 1993, 18(4): 317-319.
    [3]
    王许旭. 应用于陀螺的圆偏振双向掺铒光纤环形腔激光器[D]. 合肥: 中国科学技术大学, 2007.
    [4]
    Sunada S, Inagakiet T S, Harayama T. Ring Laser Gyroscope without lock in phenomenon [J]. Physical Review A, 2008, 78(5): 1-8.
    [5]
    Schwartz S, Feugnet G, Lariontsev E, et al. Oscillation regimes of a solid-state ring laser with active beat note stabilization: From a chaotic device to a ring laser gyroscopes[J]. Physical Review A, 2007,76(2): 23-32.
    [6]
    苏觉. 激光型光纤传感器在电流测量和光纤激光陀螺中的应用[D]. 合肥: 中国科学技术大学, 2009.
    [7]
    Su Jue, Qian Jingren. Lock-in Effect in Fiber Ring Laser Gyros[J]. Chinese Journal of Lasers, 2010, 37(10): 2 487-2 490.
    苏觉, 钱景仁. 光纤环形腔激光陀螺中的闭锁效应[J].中国激光, 2010, 37(10): 2 487-2 490.
    [8]
    廖延彪. 偏振光学[M]. 北京: 科学出版社, 2003.
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