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    Journals >Acta Photonica Sinica >Volume 51 >Issue 2 >Page 0251217 > Article
    • Acta Photonica Sinica
    • Vol. 51, Issue 2, 0251217 (2022)
    Passively Mode-locked Erbium-doped Fiber Laser Based on Nonlinear Fiber Loop Mirror
    Zhaoyang ZHANG1、3, Baole LU1、2、3、*, Haowei CHEN1、2、3, Kaige WANG1、2、3, and Jintao BAI1、2、3、*
    Author Affiliations
  • 1Institute of Photonics & Photon-technology,State Key Laboratory of Energy Photon-technology in Western China,Northwest University,Xi′an710069,China
  • 2International Collaborative Center on Photoelectric Technology and Nano Functional Materials,Northwest University,Xi′an710069,China
  • 3Shaanxi Engineering Technology Research Center for Solid State Lasers and Application,Shaanxi Provincial Key Laboratory of Photo-electronic Technology,Northwest University,Xi′an710069,China
    • show less
    DOI: 10.3788/gzxb20225102.0251217 Cite this Article
    Zhaoyang ZHANG, Baole LU, Haowei CHEN, Kaige WANG, Jintao BAI. Passively Mode-locked Erbium-doped Fiber Laser Based on Nonlinear Fiber Loop Mirror[J]. Acta Photonica Sinica, 2022, 51(2): 0251217 Copy Citation Text show less
    References

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    [2] G KRAUSS, S LOHSS, T HANKE et al. Synthesis of a single cycle of light with compact erbium-doped fibre technology. Nature Photonics, 4, 33-36(2010).

    [3] X MAO, D INOUE, S KATO et al. Amplitude-modulated laser radar for range and speed measurement in car applications. IEEE Transactions on Intelligent Transportation Systems, 13, 408-413(2012).

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    [5] P M NELLEN, P MAURON, A FRANK et al. Reliability of fiber Bragg grating based sensors for downhole applications. Sensors and Actuators A, 103, 364-376(2003).

    [6] J Q ZHAO, J ZHOU, Y Y JIANG et al. Nonlinear absorbing-loop mirror in a holmium-Doped fiber laser. Journal of Lightwave Technology, 38, 6069-6075(2020).

    [7] M E FERMANN, I HARTL. Ultrafast fibre lasers. Nature Photonics, 7, 868-874(2013).

    [8] H ZELLMER, U WILLAMOWSKI, A TUNNERMANN et al. High-power cw neodymium-doped fiber laser operating at 9.2 W with high beam quality. Optics Letters, 20, 578-580(1995).

    [9] I M JAUNCRY, L REEKIE, R J MEARS et al. Narrow-linewidth fiber laser operating at 1.55 μm. Optics Letters, 12, 164-165(1987).

    [10] B FU, Y HUA, X XIAO et al. Broadband graphene saturable absorber for pulsed fiber lasers at 1, 1.5, and 2 µm. IEEE Journal of Selected Topics in Quantum Electronics, 20, 411-415(2014).

    [11] F ZOU, Z WANG, Y BAI et al. Widely tunable all-fiber SESAM mode-locked ytterbium laser with a linear cavity. Optics & Laser Technology, 92, 133-137(2017).

    [12] Y LING. Black phosphorus saturable absorber for dual-wavelength polarization-locked vector soliton generation. Optics Express, 25, 32380(2017).

    [13] Q ZHAO, Z WU, Z ZHANG et al. Stable actively Q-switched single-frequency fiber laser at 1.5 μm based on self-injecting polarization modulation. Optics Express, 26, 1700(2018).

    [14] J LI, Y WANG, H LUO et al. Kelly sideband suppression and wavelength tuning of a conventional soliton in a Tm-doped hybrid mode-locked fiber laser with an all-fiber Lyot filter. Photonics Research, 7, 2327(2019).

    [15] W X DU, H P LI, J W LI et al. Mechanism of dissipative-soliton-resonance generation in fiber laser mode-locked by real saturable absorber. Optics Express, 26, 21314-21323(2018).

    [16] Y Q DU, X W SHU. Pulse dynamics in all-normal dispersion ultrafast fiber lasers. Journal of the Optical Society of America B, 34, 553-558(2017).

    [17] J Q ZHAO, L LI, L M ZHAO et al. Cavity-birefringence-dependent h-shaped pulse generation in a thulium-holmium-doped fiber laser. Optics Letters, 43, 247-250(2018).

    [18] J Q ZHAO, J ZHOU, Y Y JIANG et al. Nonlinear absorbing-loop mirror in a holmium-doped fiber laser. Journal of Lightwave Technology, 38, 6069-6075(2020).

    [19] Zhe LI, Wei ZHAO, Wei ZHANG et al. Continuously tuning fiber lasers with wavelength of mode-locked pulses. Acta Photonica Sinica, 38, 7-10(2009).

    [20] Xiang ZHAO, Yang LIU, Lian ZHOU et al. All-normal-dispersion polarization-maintaining Yb-doped fiber laser based on nonlinear amplifying loop mirror. Chinese Journal of Lasers, 46, 0508025(2019).

    [21] X F WANG, X L PENG, J H ZHANG. Multistate passively mode-locked thulium-doped fiber laser with nonlinear amplifying loop mirror. Applied Optics, 57, 3410-3414(2018).

    [22] B XU, A MARTINRZ, S Y SET et al. Polarization maintaining, nanotube-based mode-locked lasing from figure of eight fiber laser. IEEE Photonics Technology Letters, 26, 180-182(2014).

    [23] J BOGUSLAWSKI, G SSBON, R ZYBAA et al. Investigation on pulse shaping in fiber laser hybrid mode-locked by Sb2Te3 saturable absorber. Optics Express, 23, 29014(2015).

    [24] Xiongying GUO, Lingzhen YANG, Hucheng HE et al. Wavelength tunable mode-locked pulse fiber laser based on figure-of-eight cavity. Acta Photonica Sinica, 37, 212-215(2008).

    [25] WO Jianghai, Qizhen SUN, Ping SHEN et al. Tunable multi-wavelength erbium-doped fiber laser. Infrared and laser engineering, 40, 1007-2276(2011).

    [26] Linjie LIU, Tao DENG, Zhengmao WU et al. Generation of tunable chaotic signal with controllable bandwidth based on weak-resonant-cavity Fabry-Perot laser diodes. Acta Photonica Sinica, 47, 1014003(2018).

    [27] Yijing ZHANG, Jiang LIU, Pu WANG et al. All-fiber wavelength-tunable passively mode-locked Thulium-doped fiber laser. Chinese Journal of Lasers, 45, 1001003(2018).

    [29] H Z ZHANG, Y ZHENG, D MAO et al. Morphology-controllable ultrafast fiber lasers based on intracavity manipulation of transverse modes. Physical Review Applied, 16, 034045(2021).

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    Zhaoyang ZHANG, Baole LU, Haowei CHEN, Kaige WANG, Jintao BAI. Passively Mode-locked Erbium-doped Fiber Laser Based on Nonlinear Fiber Loop Mirror[J]. Acta Photonica Sinica, 2022, 51(2): 0251217
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