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Chinese Journal of Lasers, Volume. 50, Issue 23, 2301002(2023)

Single Longitudinal Mode Narrow Linewidth Thulium‑Doped Fiber Laser Based on Compound Double‑Ring Cavity and Saturable Absorber

Jiao Gao1, Fengping Yan1、*, Ting Feng2, Dandan Yang1, Ting Li1, qi Qin1, Hao Guo1, Haoyu Tan1, and Guangbo Li1
Author Affiliations
  • 1School of Electronic and Information Engineering, Beijing Jiaotong University, Beijing 100044, China
  • 2Photonics Information Innovation Center, College of Physics Science&Technology, Hebei University, Baoding 071002, Hebei, China
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    AbstractGet PDF(in Chinese)
    Figures&Tables (11)
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    References (33)
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    Figures & Tables(11)
    Structure diagram of SLM fiber laser

    Fig. 1. Structure diagram of SLM fiber laser

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    Transmission spectrum of FBG

    Fig. 2. Transmission spectrum of FBG

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    Structure diagram of subring cavity

    Fig. 3. Structure diagram of subring cavity

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    Transmission spectrum of the proposed compound cavity filter, and the inset is the zoomed-in transmission spectrum of compound cavity filter at the central lasing wavelength

    Fig. 4. Transmission spectrum of the proposed compound cavity filter, and the inset is the zoomed-in transmission spectrum of compound cavity filter at the central lasing wavelength

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    Transmission spectrum of the proposed compound cavity filter with 50∶50 coupler radio, and the inset is the zoomed-in transmission spectrum of compound cavity filter at the central lasing wavelength

    Fig. 5. Transmission spectrum of the proposed compound cavity filter with 50∶50 coupler radio, and the inset is the zoomed-in transmission spectrum of compound cavity filter at the central lasing wavelength

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    Structure and filtering performance of the cascaded double-ring cavity. (a) Schematic of the cascaded double-ring cavity; (b) transmission spectrum of the cascaded double-ring cavity filter, and the inset is the zoomed-in transmission spectrum of the cascaded double-ring cavity filter at the central lasing wavelength

    Fig. 6. Structure and filtering performance of the cascaded double-ring cavity. (a) Schematic of the cascaded double-ring cavity; (b) transmission spectrum of the cascaded double-ring cavity filter, and the inset is the zoomed-in transmission spectrum of the cascaded double-ring cavity filter at the central lasing wavelength

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    Fundamental schematic of saturable absorber

    Fig. 7. Fundamental schematic of saturable absorber

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    Output characteristics of the laser. (a) Spectrum of the laser output; (b) wavelength and power fluctuation of the output lasing within 60 min

    Fig. 8. Output characteristics of the laser. (a) Spectrum of the laser output; (b) wavelength and power fluctuation of the output lasing within 60 min

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    Frequency output characteristics of the proposed laser. (a) Self-homodyne radio frequency (RF) spectrum of laser in 0-100 MHz; (b) self-homodyne RF spectrum of laser in 0-500 MHz; (c) self-homodyne RF spectrum of laser in 0-1 GHz; (d) RF spectrum of the main cavity without SA; (e) relative intensity noise (RIN) spectrum of the laser

    Fig. 9. Frequency output characteristics of the proposed laser. (a) Self-homodyne radio frequency (RF) spectrum of laser in 0-100 MHz; (b) self-homodyne RF spectrum of laser in 0-500 MHz; (c) self-homodyne RF spectrum of laser in 0-1 GHz; (d) RF spectrum of the main cavity without SA; (e) relative intensity noise (RIN) spectrum of the laser

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    Output line width and tunability of the proposed laser. (a) Power spectral density of frequency noise of the laser; (b) spectrum of the laser output with a wavelength-tunable range of 2.7 nm

    Fig. 10. Output line width and tunability of the proposed laser. (a) Power spectral density of frequency noise of the laser; (b) spectrum of the laser output with a wavelength-tunable range of 2.7 nm

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    • Table 1. Performance index comparison of SLM TDFL based on different techniques

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      Table 1. Performance index comparison of SLM TDFL based on different techniques

      Ref.Wavelength /nmMaximal power fluctuation /dBMaximal wavelength drift /nmMaximal OSNR /dBLinewidth /kHz

      15

      19

      1941.56

      2048.3

      1.46

      0.641

      0.019

      0.01

      55.8

      62

      		14.1
      221941.61.50.0432
      3219400.260.01608
      This work2048.760.150.02689.17
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    Jiao Gao, Fengping Yan, Ting Feng, Dandan Yang, Ting Li, qi Qin, Hao Guo, Haoyu Tan, Guangbo Li. Single Longitudinal Mode Narrow Linewidth Thulium‑Doped Fiber Laser Based on Compound Double‑Ring Cavity and Saturable Absorber[J]. Chinese Journal of Lasers, 2023, 50(23): 2301002

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    Paper Information

    Category: laser devices and laser physics

    Received: Feb. 14, 2023

    Accepted: Apr. 10, 2023

    Published Online: Jul. 4, 2023

    The Author Email: Yan Fengping (fpyan@bjtu.edu.cn)

    DOI:10.3788/CJL230525

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology