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    Journals >Photonic Sensors >Volume 9 >Issue 1 >Page 43 > Article
    • Photonic Sensors
    • Vol. 9, Issue 1, 43 (2019)
    High Power Linearly Polarized Raman Fiber Laser With Stable Temporal Output
    Jiaxin SONG*, Hanshuo WU, Jun YE, Jiangming XU, Hanwei ZHANG, and Pu ZHO
    Author Affiliations
  • College of Advanced Interdisciplinary Studies, National University of Defense Technology, Changsha 410073, China
    • show less
    DOI: 10.1007/s13320-018-0506-9 Cite this Article
    Jiaxin SONG, Hanshuo WU, Jun YE, Jiangming XU, Hanwei ZHANG, Pu ZHO. High Power Linearly Polarized Raman Fiber Laser With Stable Temporal Output[J]. Photonic Sensors, 2019, 9(1): 43 Copy Citation Text show less
    References

    [1] V. R. Supradeepa, Y. Feng, and J. W. Nicholson, “Raman fiber lasers,” Journal of Optics, 2017, 19(2): 023001-1-023001-26.

    [2] A. E. El-Taher, J. D. Ania-Casta-ón, V. Karalekas, and P. Harper, “High efficiency supercontinuum generation using ultra-long Raman fiber cavities,” Optics Express, 2009, 17(20): 17909-17915.

    [3] L. R. Taylor, Y. Feng, and D. B. Calia, “50W CW visible laser source at 589 nm obtained via frequency doubling of three coherently combined narrow-band Raman fibre amplifiers,” Optics Express, 2010, 18(8): 8540-8555.

    [4] X. Wang, P. Zhou, Y. Miao, H. W. Zhang, H. Xiao, X. L. Wang, et al., “Raman fiber laser-pumped high-power, efficient Ho-doped fiber laser,” Journal of the Optical Society of America B, 2014, 31(10): 2476-2479.

    [5] H. W. Baac, N. Uribe-Patarroyo, and B. E. Bouma, “High-energy pulsed Raman fiber laser for biological tissue coagulation,” Optics Express, 2014, 22(6): 7113-7123.

    [6] H. W. Zhang, P. Zhou, X. Wang, X. Y. Du, H. Xiao, and X. J. Xu, “Hundred-watt-level high power random distributed feedback Raman fiber laser at 1150 nm and its application in mid-infrared laser generation,” Optics Express, 2015, 23(13): 17138-17144.

    [7] Z. N. Wang, Y. J. Rao, H. Wu, P. Y. Li, Y. Jiang, X. H. Jia, et al., “Long-distance fiber-optic point-sensing systems based on random fiber lasers,” Optics Express, 2012, 20(16): 17695-17700.

    [8] X. H. Jia, Y. J. Rao, Z. N. Wang, W. L. Zhang, C. X. Yuan, X. D. Yan, et al., “Distributed Raman amplification using ultra-long fiber laser with a ring cavity: characteristics and sensing application,” Optics Express, 2013, 21(18): 21208-21217.

    [9] S. A. Skubchenko, M. Y. Vyatkin, and D. V. Gapontsev, “High-power CW linearly polarized all-fiber Raman laser,” IEEE Photonics Technology Letters, 2004, 16(4): 1014-1016.

    [10] H. W. Zhang, P. Zhou, H. Xiao, and X. J. Xu, “Efficient Raman fiber laser based on random Rayleigh distributed feedback with record high power,” Laser Physics Letters, 2014, 11(7): 075104-1-075104-4.

    [11] Y. Feng, L. Taylor, and D. B. Calia, “Multiwatts narrow linewidth fiber Raman amplifiers,” Optics Express, 2008, 16(15): 10927-10932.

    CLP Journals

    [1] Jun Ye, Xiaoya Ma, Yang Zhang, Jiangming Xu, Hanwei Zhang, Tianfu Yao, Jinyong Leng, Pu Zhou. Revealing the dynamics of intensity fluctuation transfer in a random Raman fiber laser[J]. Photonics Research, 2022, 10(3): 618

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    Jiaxin SONG, Hanshuo WU, Jun YE, Jiangming XU, Hanwei ZHANG, Pu ZHO. High Power Linearly Polarized Raman Fiber Laser With Stable Temporal Output[J]. Photonic Sensors, 2019, 9(1): 43
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