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Chinese Journal of Lasers, Volume. 48, Issue 12, 1201004(2021)

High Repetition-Rate Optical Parametric Chirped-Pulse Amplifiers

Jingcheng Shang1,2,3, Yizhou Liu1,2, Shengzhi Zhao1,2, Tianli Feng1,2,3、*, Kejian Yang1,3,4, Wenchao Qiao1,2,3, Yuantao Zhao1,2,3, and Tao Li1,2,3、**
Author Affiliations
  • 1School of Information Science and Engineering, Shandong University, Qingdao, Shandong 266237, China
  • 2Shandong Key Laboratory for Laser Technologies and Applications, Shandong University, Qingdao, Shandong 266237, China
  • 3Key Laboratory of Laser & Infrared System, Ministry of Education, Shandong University, Qingdao, Shandong 266237, China;
  • 4Institute of Crystal Materials, Shandong University, Jinan, Shandong 250100, China
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    References (92)
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    Figures & Tables(12)
    Relationship between emission spectrum of HHG and driving laser wavelength under the condition of perfect phase matching[6]

    Fig. 1. Relationship between emission spectrum of HHG and driving laser wavelength under the condition of perfect phase matching[6]

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    Schematic of two kinds of 2-μm OPCPA system front-ends based on difference frequency process. (a) One kind of front-end includes a femtosecond Ti∶Sapphire oscillator, the 2-μm seed pulses are generated by a DFG process directly[29-31]; (b) another kind of frond-end is the pump laser based on OPCPA system, this pump laser is a picosecond Yb-doped laser amplifier, which is used to generate the 2-μm seed laser with the assistance of SCG[14]

    Fig. 2. Schematic of two kinds of 2-μm OPCPA system front-ends based on difference frequency process. (a) One kind of front-end includes a femtosecond Ti∶Sapphire oscillator, the 2-μm seed pulses are generated by a DFG process directly[29-31]; (b) another kind of frond-end is the pump laser based on OPCPA system, this pump laser is a picosecond Yb-doped laser amplifier, which is used to generate the 2-μm seed laser with the assistance of SCG[14]

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    Transmittance windows and the maximum effective nonlinear coefficients of several typical nonlinear crystals[4]

    Fig. 3. Transmittance windows and the maximum effective nonlinear coefficients of several typical nonlinear crystals[4]

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    Transmittance of several typical solid mediums

    Fig. 4. Transmittance of several typical solid mediums

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    GVD and TOD of solid mediums at different wavelengths. (a) GVD; (b) TOD

    Fig. 5. GVD and TOD of solid mediums at different wavelengths. (a) GVD; (b) TOD

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    Output parameters of ~800-nm high repetition rate (≥1 kHz) OPCPA systems[11-12, 25-27,41-48]

    Fig. 6. Output parameters of ~800-nm high repetition rate (≥1 kHz) OPCPA systems[11-12, 25-27,41-48]

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    Output parameters of ~1.5-μm high repetition rate (≥1 kHz) OPCPA systems[13,17,28,49-57]

    Fig. 7. Output parameters of ~1.5-μm high repetition rate (≥1 kHz) OPCPA systems[13,17,28,49-57]

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    Output parameters of ~2-μm high repetition rate (≥1 kHz) OPCPA systems[14,29-30,58-68]

    Fig. 8. Output parameters of ~2-μm high repetition rate (≥1 kHz) OPCPA systems[14,29-30,58-68]

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    Output parameters of ~3-μm high repetition rate (≥1 kHz) OPCPA systems[31-33,53,69-78]

    Fig. 9. Output parameters of ~3-μm high repetition rate (≥1 kHz) OPCPA systems[31-33,53,69-78]

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    • Table 1. Damage thresholds of several typical nonlinear crystals

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      Table 1. Damage thresholds of several typical nonlinear crystals

      CrystalDamage threshold 2 ps@1030 nm/(GW·cm-2)
      BBO70[4,35]
      BiBO70[4]
      LBO490[36]
      LiNbO370[37]
      KTA63[38]
      YCOB125[39]
      ZGP16@2 μm[40]

    • Table 2. Output parameters of high repetition rate (≥1 kHz) OPCPA systems operating beyond 4 μm wavelength

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      Table 2. Output parameters of high repetition rate (≥1 kHz) OPCPA systems operating beyond 4 μm wavelength

      TimeWavelength /μmRepetitionrate /kHzPulseduration /fsPulseenergy /mJAverage outputpower /WPeakpower /GWReference
      20133.95111113.313.3120[15]
      201751750.650.658.7[79]
      201851801112.5[80]
      2019516813.114.7[81]
      20199101420.0140.140.1[82]
      20204.9189.43.43.438[83]
      2020411199.539.5380.1[84]

    • Table 3. Optimal output parameters of the OPCPA systems operation in different wavelengths

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      Table 3. Optimal output parameters of the OPCPA systems operation in different wavelengths

      Wavelength /μmRepetitionrate /kHzPulse duration /fsPulseduration /mJAverage outputpower /WPeakpower /GW
      0.811500553.81125.5×103
      1.535063106263.2
      210010.5 (Pump source is Ti∶Sapphire)3.333132
      316020(Pump source is Ti∶Sapphire)5.821290
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    Jingcheng Shang, Yizhou Liu, Shengzhi Zhao, Tianli Feng, Kejian Yang, Wenchao Qiao, Yuantao Zhao, Tao Li. High Repetition-Rate Optical Parametric Chirped-Pulse Amplifiers[J]. Chinese Journal of Lasers, 2021, 48(12): 1201004

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    Paper Information

    Category: laser devices and laser physics

    Received: Feb. 25, 2021

    Accepted: Mar. 23, 2021

    Published Online: Jun. 7, 2021

    The Author Email: Feng Tianli (tlfeng@sdu.edu.cn), Li Tao (litao@sdu.edu.cn)

    DOI:10.3788/CJL202148.1201004

    Topics

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