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Chinese Journal of Lasers, Volume. 46, Issue 5, 0508011(2019)

Research Progress of Ultrafast Pulsed Lasers in Visible Range

Yuxia Zhang, Haohai Yu*, and Huaijin Zhang**
Author Affiliations
  • State Key Laboratory of Crystal Materials, Institute of Crystal Materials, Shandong University,Jinan, Shandong 250100, China
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    Figures & Tables(5)
    Characterization of Pr3+∶YLiF4 Kerr-lens mode-locked femtosecond pulsed laser with wavelength of 613 nm. (a) Autocorrelation map; (b) laser spectrum[17]

    Fig. 1. Characterization of Pr3+∶YLiF4 Kerr-lens mode-locked femtosecond pulsed laser with wavelength of 613 nm. (a) Autocorrelation map; (b) laser spectrum[17]

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    Characterization of high repetition rate Pr3+∶GdLiF4 self-mode-locked pulsed laser in visible range. (a) High repetition rate pulse trains at different wavelengths; (b) mode-locked pulse spectrum[25]

    Fig. 2. Characterization of high repetition rate Pr3+∶GdLiF4 self-mode-locked pulsed laser in visible range. (a) High repetition rate pulse trains at different wavelengths; (b) mode-locked pulse spectrum[25]

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    Mode-locking in visible range with SESAM as saturable absorber. (a) Single pulse trace with LD pumping (inset: pulse train); (b) laser spectrum with LD pumping

    Fig. 3. Mode-locking in visible range with SESAM as saturable absorber. (a) Single pulse trace with LD pumping (inset: pulse train); (b) laser spectrum with LD pumping

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    Mode-locking application of novel low-dimensional materials in visible range. (a) Common mode-locked laser cavity; (b) mode-locked pulse train[50]; (c) mode-locked single pulse trace with monolayer graphene as saturable absorber[50]; (d) nonlinear saturable absorption properties and selection criterion of different layers of MoS2 samples[52]</

    Fig. 4. Mode-locking application of novel low-dimensional materials in visible range. (a) Common mode-locked laser cavity; (b) mode-locked pulse train[50]; (c) mode-locked single pulse trace with monolayer graphene as saturable absorber[50]; (d) nonlinear saturable absorption properties and selection criterion of different layers of MoS2 samples[52]

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    • Table 1. Summary of ultrafast pulse lasers in visible range

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      Table 1. Summary of ultrafast pulse lasers in visible range

      ModulationGainmaterialPumpingwaySaturableabsorberPulsewidth /psRepetitionrate /MHzWavelength /nmYearRef.
      Kerr-lensmode-locking81006391994[14]
      9.71006071995[15]
      Pr3+∶YLiF4Argon-ionlaser8.51256391995[15]
      15706071996[16]
      0.46131996[17]
      Pr3+∶YLiF4LD400756392016[19]
      LD7228005222016[25]
      6931006072016[25]
      Pr3+∶GdLiF45331006392016[25]
      7430007202016[25]
      Passivemode-lockingPr3+∶YLiF42ω-OPSLSESAM1885.556392014[39]
      Pr3+∶YLiF4LDSESAM15107.56392014[38]
      LDSESAM451086392016[19]
      LDMoS246101.15222017[52]
      Pr3+∶GdLiF43090.26072017[52]
      2594.76392017[52]
      Pr3+∶LuLiF4LDGraphene451026392018[50]
      Pr3+∶GdLiF4LDNiO30.2109.86392018[60]
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    Yuxia Zhang, Haohai Yu, Huaijin Zhang. Research Progress of Ultrafast Pulsed Lasers in Visible Range[J]. Chinese Journal of Lasers, 2019, 46(5): 0508011

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    Paper Information

    Category: nonlinear optics

    Received: Jan. 10, 2019

    Accepted: Feb. 18, 2019

    Published Online: Nov. 11, 2019

    The Author Email: Yu Haohai (haohaiyu@sdu.edu.cn), Zhang Huaijin (huaijinzhang@sdu.edu.cn)

    DOI:10.3788/CJL201946.0508011

    Topics

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