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    Journals >Infrared and Laser Engineering >Volume 48 >Issue 4 >Page 406005 > Article
    • Infrared and Laser Engineering
    • Vol. 48, Issue 4, 406005 (2019)
    Influence of light source linewidth on detection performance of coherent wind lidar
    Feng Litian*, Zhao Pei′e, Shi Xiaoding, Jin Guohua, Yang Zehou, Zhou Dingfu, and Hou Tianjin
    Author Affiliations
  • [in Chinese]
    • show less
    DOI: 10.3788/irla201948.0406005 Cite this Article
    Feng Litian, Zhao Pei′e, Shi Xiaoding, Jin Guohua, Yang Zehou, Zhou Dingfu, Hou Tianjin. Influence of light source linewidth on detection performance of coherent wind lidar[J]. Infrared and Laser Engineering, 2019, 48(4): 406005 Copy Citation Text show less
    References

    [1] Amnon Yariv, Pochi Yeh. Optical Electronics in Modern Communication[M]. Sixth ed. Chen Heming, translated. Beijing: Publishing House of Electronics Industry, 2014. (in Chinese)

    [2] Liao Yanbiao. Optics: Principles and Application[M]. Beijing: Publishing House of Electronics Industry, 2006. (in Chinese)

    [3] Christine Spiegelberg, Jihong Geng, Hu Yongdan, et al. Low-noise narrow-linewidth fiber laser at 1550 nm [J]. Journal of Lightwave Technology, 2004, 22(1): 57-62.

    [4] Dolfi-Bouteyre A, Canat G, Valla M, et al. Pulsed 1.5 μm LIDAR for axial aircraft wake vortex detection based on high-brightness large-core fiber amplifier[J]. IEEE Journal of Selected Topics in Quantum Electronics, 2009, 15(2): 441-450.

    [5] Zhang Xin, Diao Weifeng, Liu Yuan, et al. Eye-safe signal-frequency single-mode polarized all-fiber pulsed laser with peak power of 361 W [J]. Appled Optics, 2014, 53(11): 2465-2469.

    [6] Song Zhaoyuan, Yao Guibin, Zhang Leilei, et al. Influence factors of phase noise of single frequency fiber laser[J]. Infrared and Laser Engineering, 2016, 46(3): 0305005. (in Chinese)

    [7] Hu Qi, Peter John Rodrigo, Christian Pedersen. Remote wind sensing with a CW diode laser lidar beyond the coherence regime[J]. Optics Letters, 2014, 39(16): 4875-4878.

    [8] Li Chengqiang, Wang Tingfeng, Zhang Heyong, et al. Effect of laser linewidth on the performance of heterodyne detection[J]. Acta Physical Sinica, 2016, 65(8): 084206. (in Chinese)

    [9] Kong Yingxiu, Ke Xizheng, Yang Yuan. Influence of laser linewidth on the performance of space coherent[J]. Chinese Journal of Scientific Instrument, 2017, 38(7): 1669-1674. (in Chinese)

    [10] Zhang Haiyang, Zhao Changming, Yang Suhui, et al. The methods of decreasing the phase noise influence in micro-doppler ladar[J]. Acta Photonica Sinica, 2011, 40(5): 753-757. (in Chinese)

    [11] Hu Yang, Zhu Heyuan. 1.55 μm all-fiber coherent Doppler lidar for wind measurement[J]. Infrared and Laser Engineering, 2016, 45(S1): S130001. (in Chinese)

    [12] Vaccaro D D. Electronic Warfare Receiving System[M]. Translated by Fu Damao, Hu Yongfu. Beijing: The Fourth Department of the General Staff Headquarters, 1996: 116-117.

    [13] Townes C. Ideas and stumbling blocks in quantumelectronics [J]. Journal of Quantum Electronics, 1984, 20(6): 547-550.

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    Feng Litian, Zhao Pei′e, Shi Xiaoding, Jin Guohua, Yang Zehou, Zhou Dingfu, Hou Tianjin. Influence of light source linewidth on detection performance of coherent wind lidar[J]. Infrared and Laser Engineering, 2019, 48(4): 406005
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