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    Journals >Acta Photonica Sinica >Volume 50 >Issue 8 >Page 0850208 > Article
    • Acta Photonica Sinica
    • Vol. 50, Issue 8, 0850208 (2021)
    Research Progress of High-power Ultrafast Thin-disk Laser Technology (Invited)
    Hailin WANG, Jing DONG, Heyan LIU, Jingjie HAO, Xiao ZHU, and Jinwei ZHANG*
    Author Affiliations
  • School of Optics and Electronic Information, Wuhan National laboratory for Optoelectronics, Huazhong University of Science and Technology, Wuhan430074, China
    • show less
    DOI: 10.3788/gzxb20215008.0850208 Cite this Article
    Hailin WANG, Jing DONG, Heyan LIU, Jingjie HAO, Xiao ZHU, Jinwei ZHANG. Research Progress of High-power Ultrafast Thin-disk Laser Technology (Invited)[J]. Acta Photonica Sinica, 2021, 50(8): 0850208 Copy Citation Text show less
    Schematic setup of a thin disk laser module
    Fig. 1. Schematic setup of a thin disk laser module
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    Schematic diagram of multi-pass pump structure[16]
    Fig. 2. Schematic diagram of multi-pass pump structure16
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    Schematic setup of 52-pass pump head consisting of dual parabolic mirrors with conjugated relationship
    Fig. 3. Schematic setup of 52-pass pump head consisting of dual parabolic mirrors with conjugated relationship
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    242 W, SESAM mode-locked thin-disk oscillator experimental setup[23]
    Fig. 4. 242 W, SESAM mode-locked thin-disk oscillator experimental setup23
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    Overview of high power SESAM mode-locked oscillators
    Fig. 5. Overview of high power SESAM mode-locked oscillators
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    Overview of high power KLM mode-locked oscillators
    Fig. 6. Overview of high power KLM mode-locked oscillators
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    270W, KLM mode-locked thin-disk oscillator experimental setup[10]
    Fig. 7. 270W, KLM mode-locked thin-disk oscillator experimental setup10
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    Scheme of nonlinear mirror mode locking[11]
    Fig. 8. Scheme of nonlinear mirror mode locking11
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    Different broadband thin-disk crystal output power and corresponding pulse width
    Fig. 9. Different broadband thin-disk crystal output power and corresponding pulse width
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    Overview of 2 μm thin-disk laser
    Fig. 10. Overview of 2 μm thin-disk laser
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    Schematic of two different types of thin disk amplifiers[16]
    Fig. 11. Schematic of two different types of thin disk amplifiers16
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    Experimental setup of the ps regenerative amplifier[58]
    Fig. 12. Experimental setup of the ps regenerative amplifier58
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    Setup of the ring-cavity regenerative amplifier[65]
    Fig. 13. Setup of the ring-cavity regenerative amplifier65
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    Layout of the multi-pass amplifier[78]
    Fig. 14. Layout of the multi-pass amplifier78
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    Setup of the multi-pass amplifier based on collimated beam propagation[80]
    Fig. 15. Setup of the multi-pass amplifier based on collimated beam propagation80
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    Scheme of the multi-pass cell[81]
    Fig. 16. Scheme of the multi-pass cell81
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    Schematic of the 720 mJ laser amplifier system[82]
    Fig. 17. Schematic of the 720 mJ laser amplifier system82
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    Setup of the 1 J large aperture ring amplifier[83]
    Fig. 18. Setup of the 1 J large aperture ring amplifier83
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    Schematic of the thin-disk amplifier without CPA technique[92]
    Fig. 19. Schematic of the thin-disk amplifier without CPA technique92
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    Abstract
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    Hailin WANG, Jing DONG, Heyan LIU, Jingjie HAO, Xiao ZHU, Jinwei ZHANG. Research Progress of High-power Ultrafast Thin-disk Laser Technology (Invited)[J]. Acta Photonica Sinica, 2021, 50(8): 0850208
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