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    Journals >Chinese Optics Letters >Volume 22 >Issue 9 >Page 091402 > Article
    • Chinese Optics Letters
    • Vol. 22, Issue 9, 091402 (2024)
    Mode-locked fiber lasers at 1064 and 910 nm wavelengths using Nd3+-doped silica fiber
    He'nan Shen1,2, Xilong Zhao2,3, Fei Yu2,3,*, Yazhou Wang2..., Yafei Wang2, Yan Sun2, Shikai Wang2, Yinggang Chen2,3, Zhongqing Jia4, Ruizhan Zhai4, Chunlei Yu2,3,5 and Lili Hu2,3,5|Show fewer author(s)
    Author Affiliations
  • 1School of Optical-Electrical and Computer Engineering, University of Shanghai for Science and Technology, Shanghai 200093, China
  • 2Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Shanghai 201800, China
  • 3University of Chinese Academy of Sciences, Beijing 100049, China
  • 4Laser Institute, Qilu University of Technology (Shandong Academy of Sciences), Qingdao 266000, China
  • 5Hangzhou Institute for Advanced Study, University of Chinese Academy of Sciences, Hangzhou 310024, China
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    DOI: 10.3788/COL202422.091402 Cite this Article Set citation alerts
    He'nan Shen, Xilong Zhao, Fei Yu, Yazhou Wang, Yafei Wang, Yan Sun, Shikai Wang, Yinggang Chen, Zhongqing Jia, Ruizhan Zhai, Chunlei Yu, Lili Hu, "Mode-locked fiber lasers at 1064 and 910 nm wavelengths using Nd3+-doped silica fiber," Chin. Opt. Lett. 22, 091402 (2024) Copy Citation Text show less
    References

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    [2] H. Zellmer, U. Willamowski, A. Tünnermann et al. High-power cw neodymium-doped fiber laser operating at 9.2 W with high beam quality. Opt. Lett., 20, 578(1995).

    [3] Y. Chen, Z. Lin, Y. Wang et al. Nd3+-doped silica glass and fiber prepared by modified sol-gel method. Chin. Opt. Lett., 20, 091601(2022).

    [4] A. A. Mkrtchyan, Y. G. Gladush, M. A. Melkumov et al. Nd-doped polarization maintaining all-fiber laser with dissipative soliton resonance mode-locking at 905 nm. J. Lightwave Technol., 39, 5582(2021).

    [5] F. Wang, Z. Lin, C. Shao et al. Centimeter-scale Yb-free heavily Er-doped silica fiber laser. Opt. Lett., 43, 2356(2018).

    [6] L. Reekie, I. M. Jauncey, S. B. Poole et al. Diode-laser-pumped Nd3+-doped fibre laser operating at 938 nm. Electron. Lett., 23, 884(1987).

    [7] A. L. Cook, H. D. Hendricks. Diode-laser-pumped tunable 896-939.5-nm neodymium-doped fiber laser with 43-mW output power. Appl. Opt., 37, 3276(1998).

    [8] M. Murakami, Y. Fujimoto, S. Motokoshi et al. Short-length fiber laser oscillation in 4-mm Nd-doped silica fiber fabricated by zeolite method. Opt. Commun., 328, 131(2014).

    [9] Y. Wang, X. Li, J. Wu et al. Three-level all-fiber laser at 915 nm based on polarization-maintaining Nd3+-doped silica fiber. Chin. Opt. Lett., 18, 011401(2020).

    [10] P. Jelger, F. Laurell. Efficient narrow-linewidth volume-Bragg grating-locked Nd:fiber laser. Opt. Express, 15, 11336(2007).

    [11] K. Qian, H. Wang, M. Laroche et al. Mode-locked Nd-doped fiber laser at 930 nm. Opt. Lett., 39, 267(2014).

    [12] Y. Yamasaki, Y. Kagebayashi, T. Hiraishi et al. 2.6-GHz fundamental repetition rate, Q-switched mode-locking Nd3+-doped single-mode silica fiber laser, fabricated by zeolite method. Opt. Commun., 497, 127151(2021).

    [13] L. Xu, X. Chen, M. Li et al. All-fiber all-normal-dispersion passively mode-locked neodymium-doped fiber laser operation at 1064 nm. Laser Phys., 32, 025102(2022).

    [14] B. Zhang, P. Li, X. Zhang et al. Noise-like pulse generation in an Nd-doped single-mode all-fiber mode-locked Raman laser operating at 0.93 µm. Opt. Express, 30, 30047(2022).

    [15] J. Zhang, J. Wen, Y. Wang et al. Watt-level gigahertz femtosecond fiber laser system at 920 nm. Opt. Lett., 47, 4941(2022).

    [16] B. R. Judd. Optical absorption intensities of rare-earth ions. Phys. Rev., 127, 750(1962).

    [17] G. S. Ofelt. Intensities of crystal spectra of rare-earth ions. J. Chem. Phys., 37, 511(1962).

    [18] T. Sato, Y. Fujimoto, H. Okada et al. 40 J class laser oscillation of Nd-doped silica glass with high thermal shock parameter. Appl. Phys. Lett., 90, 221108(2007).

    [19] Y. Chen, Y. Wang, H. Dong et al. Temperature dependence behaviors of three-level transition in Nd3+/Al3+ Co-doped silica glass. J. Lumin., 269, 120459(2024).

    [20] B. Zhou, Q. Xiang, Y. Zhou et al. Preparation and optical properties of neodynnium doped sol-gel glasses using trimethylphosphate as P2O5 precursor. 5th Sol-Gel Optics Conference, Proceedings of the Society of Photo-Optical Instrumentation Engineers, 147(2000).

    [21] B. Leconte, B. Cadier, H. Gilles et al. CW and Q-switched tunable neodymium fiber laser sources at short IR wavelengths near 900 nm. Advanced Solid State Lasers, AW2A.3(2015).

    [22] I. A. Bufetov, V. V. Dudin, A. V. Shubin et al. Efficient 0.9-µm neodymium-doped single-mode fibre laser. Quantum Electron., 33, 1035(2003).

    [23] J. W. Dawson, A. Drobshoff, Z. Liao et al. High-power 938-nm cladding pumped fiber laser. Proc. SPIE, 4974, 75(2003).

    [24] A. Wang, A. K. George, J. C. Knight. Three-level neodymium fiber laser incorporating photonic bandgap fiber. Opt. Lett., 31, 1388(2006).

    [25] A. Chong, W. H. Renninger, F. W. Wise. Properties of normal-dispersion femtosecond fiber lasers. J. Opt. Soc. Am. B, 25, 140(2008).

    [26] A. A. Mkrtchyan, Y. G. Gladush, M. A. Melkumov et al. Nd-doped polarization maintaining all-fiber laser with dissipative soliton resonance mode-locking at 905 nm. J. Lightwave Technol., 39, 5582(2021).

    [27] P. Bowen, M. Erkintalo, N. G. R. Broderick. Large net-normal dispersion Er-doped fibre laser mode-locked with a nonlinear amplifying loop mirror. Opt. Commun., 410, 447(2018).

    [28] F. Yu, H. Shen, X. Zhao. 1064 nm and 910 nm Mode-locked fiber lasers. Science Data Bank(2024).

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    He'nan Shen, Xilong Zhao, Fei Yu, Yazhou Wang, Yafei Wang, Yan Sun, Shikai Wang, Yinggang Chen, Zhongqing Jia, Ruizhan Zhai, Chunlei Yu, Lili Hu, "Mode-locked fiber lasers at 1064 and 910 nm wavelengths using Nd3+-doped silica fiber," Chin. Opt. Lett. 22, 091402 (2024)
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