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    Journals >Chinese Optics Letters >Volume 21 >Issue 6 >Page 061402 > Article
    • Chinese Optics Letters
    • Vol. 21, Issue 6, 061402 (2023)
    Wavelength-tunable dissipative soliton from Yb-doped fiber laser with nonlinear amplifying loop mirror
    Yangyang Li, Man Jiang*, Lei Hou**, Jianing Tao..., Pengye Song, Baole Lu and Jintao Bai|Show fewer author(s)
    Author Affiliations
  • State Key Laboratory of Photon-Technology in Western China Energy, International Collaborative Center on Photoelectric Technology and Nano Functional Materials, Institute of Photonics & Photon Technology, School of Physics, Northwest University, Xi’an 710069, China
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    DOI: 10.3788/COL202321.061402 Cite this Article Set citation alerts
    Yangyang Li, Man Jiang, Lei Hou, Jianing Tao, Pengye Song, Baole Lu, Jintao Bai, "Wavelength-tunable dissipative soliton from Yb-doped fiber laser with nonlinear amplifying loop mirror," Chin. Opt. Lett. 21, 061402 (2023) Copy Citation Text show less
    Schematic setup of the mode-locked fiber laser with NALM.
    Fig. 1. Schematic setup of the mode-locked fiber laser with NALM.
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    Principle diagram of the reflective grating.
    Fig. 2. Principle diagram of the reflective grating.
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    (a) Relation between the incident angle α and the received center wavelength λ at different angle θ. (b) Variation in the filter bandwidth with the distance between the grating and the collimator.
    Fig. 3. (a) Relation between the incident angle α and the received center wavelength λ at different angle θ. (b) Variation in the filter bandwidth with the distance between the grating and the collimator.
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    Output characteristics of the fiber lasers. (a), (b) The output spectrum and the autocorrelation trace at port 1. (c), (d) The output spectrum and the autocorrelation trace at port 2.
    Fig. 4. Output characteristics of the fiber lasers. (a), (b) The output spectrum and the autocorrelation trace at port 1. (c), (d) The output spectrum and the autocorrelation trace at port 2.
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    (a) Output power versus pump power. (b) The oscilloscopic pulse train. (c) The RF spectrum of dissipative soliton, 5 MHz span with a 1 Hz resolution bandwidth. (d) The RF spectrum in 2 GHz with a resolution bandwidth of 200 Hz.
    Fig. 5. (a) Output power versus pump power. (b) The oscilloscopic pulse train. (c) The RF spectrum of dissipative soliton, 5 MHz span with a 1 Hz resolution bandwidth. (d) The RF spectrum in 2 GHz with a resolution bandwidth of 200 Hz.
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    (a) Schematic setup of the external cavity compression. (b) Corresponding autocorrelation trace.
    Fig. 6. (a) Schematic setup of the external cavity compression. (b) Corresponding autocorrelation trace.
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    Typical mode-locked spectral tuning range diagram (1011.80–1065.64 nm).
    Fig. 7. Typical mode-locked spectral tuning range diagram (1011.80–1065.64 nm).
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    (a) The power fluctuations of the laser output. (b) The spectra fluctuations of the laser output.
    Fig. 8. (a) The power fluctuations of the laser output. (b) The spectra fluctuations of the laser output.
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    Yangyang Li, Man Jiang, Lei Hou, Jianing Tao, Pengye Song, Baole Lu, Jintao Bai, "Wavelength-tunable dissipative soliton from Yb-doped fiber laser with nonlinear amplifying loop mirror," Chin. Opt. Lett. 21, 061402 (2023)
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