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    Journals >Acta Photonica Sinica >Volume 52 >Issue 8 >Page 0814001 > Article
    • Acta Photonica Sinica
    • Vol. 52, Issue 8, 0814001 (2023)
    Passive Self-similar Pulse Fiber Laser Constructed by Anomalous Dispersion Gain Fiber
    Rui GONG, Yalin GENG, Li PEI, and Huai WEI*
    Author Affiliations
  • Key Laboratory of All-optical Network and Modern Communication Network Ministry of Education,Institute of Light Wave Technology,College of Electronic Information Engineering,Beijing Jiaotong University,Beijing 100044,China
    • show less
    DOI: 10.3788/gzxb20235208.0814001 Cite this Article
    Rui GONG, Yalin GENG, Li PEI, Huai WEI. Passive Self-similar Pulse Fiber Laser Constructed by Anomalous Dispersion Gain Fiber[J]. Acta Photonica Sinica, 2023, 52(8): 0814001 Copy Citation Text show less
    Idealized schematic of dispersion-managed Er-doped fluoride fiber laser at 2.8 μm
    Fig. 1. Idealized schematic of dispersion-managed Er-doped fluoride fiber laser at 2.8 μm
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    Output pulse evolution
    Fig. 2. Output pulse evolution
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    Energy transmission function of dispersion-managed system and traditional soliton system
    Fig. 3. Energy transmission function of dispersion-managed system and traditional soliton system
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    Schematic of systems for comparison.
    Fig. 4. Schematic of systems for comparison.
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    Intracavity pulse and chirp evolution of self-similar mirror system
    Fig. 5. Intracavity pulse and chirp evolution of self-similar mirror system
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    Intracavity pulse duration evolution of system 1 system,and system 3
    Fig. 6. Intracavity pulse duration evolution of system 1 system,and system 3
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    Output of three systems
    Fig. 7. Output of three systems
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    Pulse peak power evolution of three systems
    Fig. 8. Pulse peak power evolution of three systems
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    Pulse energy evolution of three systems
    Fig. 9. Pulse energy evolution of three systems
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    Time-domain chirp of dispersion-managed self-similar systems with different total normal dispersion
    Fig. 10. Time-domain chirp of dispersion-managed self-similar systems with different total normal dispersion
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    Pulse energy evolution of dispersion-managed self-similar systems with different total normal dispersion
    Fig. 11. Pulse energy evolution of dispersion-managed self-similar systems with different total normal dispersion
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    Time-domain chirp of dispersion-managed self-similar systems with different net dispersion
    Fig. 12. Time-domain chirp of dispersion-managed self-similar systems with different net dispersion
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    Pulse energy evolution of dispersion-managed self-similar systems with different net dispersion
    Fig. 13. Pulse energy evolution of dispersion-managed self-similar systems with different net dispersion
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    Time-domain chirp of dispersion-managed self-similar systems with different dispersion compensation nonlinearity
    Fig. 14. Time-domain chirp of dispersion-managed self-similar systems with different dispersion compensation nonlinearity
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    Pulse energy evolution of dispersion-managed self-similar systems with different dispersion compensation nonlinearity
    Fig. 15. Pulse energy evolution of dispersion-managed self-similar systems with different dispersion compensation nonlinearity
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    Laser typesTimeLaser featuresRef.
    DMS1995

    Dispersion map

    Chirp reverse

    		5
    Passive SS2004

    Dispersion map

    Positive chirped

    		10],[14],[15
    ANDi(DS)2006

    All-normal dispersion

    Spectrum filtering

    		11],[14],[15
    Active SS2010

    Dispersion map

    Spectrum filtering

    		24],[25],[26
    DS*2008

    ANDi

    or

    Generalized solitons in all dissipative systems

    		12],[27
    Table 1. Classification and features comparison of mode-locked fiber lasers
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    Fibers and devicesGroup velocity dispersion β2/(ps2·m-1Nonlinear coefficient γ/(W-1·km-1
    Er:ZBLAN fiber-0.0860.167
    SMF-0.3530.083
    DC:Ge rod1.6850
    Table 2. Fibers parameters in simulation
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    Abstract
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    References (29)
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    Rui GONG, Yalin GENG, Li PEI, Huai WEI. Passive Self-similar Pulse Fiber Laser Constructed by Anomalous Dispersion Gain Fiber[J]. Acta Photonica Sinica, 2023, 52(8): 0814001
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