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    Journals >High Power Laser and Particle Beams >Volume 35 >Issue 4 >Page 041006 > Article
    • High Power Laser and Particle Beams
    • Vol. 35, Issue 4, 041006 (2023)
    Research progress on nonlinear optics laser beam combining technology
    Can Cui1、2, Yue Wang3, Yulei Wang1、2、*, Zhenxu Bai1、2, and Zhiwei Lü1、2
    Author Affiliations
  • 1Center for Advanced Laser Technology, Hebei University of Technology, Tianjin 300401, China
  • 2Hebei Key Laboratory of Advanced Laser Technology and Equipment, Tianjin 300401, China
  • 3National Key Laboratory of Science and Technology on Tunable Laser, School of Astronautics, Harbin Institute of Technology, Harbin 150002, China
    • show less
    DOI: 10.11884/HPLPB202335.220359 Cite this Article
    Can Cui, Yue Wang, Yulei Wang, Zhenxu Bai, Zhiwei Lü. Research progress on nonlinear optics laser beam combining technology[J]. High Power Laser and Particle Beams, 2023, 35(4): 041006 Copy Citation Text show less
    Two kinds of SBS-PCM phase-locking laser beam combining methods
    Fig. 1. Two kinds of SBS-PCM phase-locking laser beam combining methods
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    N.G. Basov coherent beam combining of two vertically polarized pump beams[31]
    Fig. 2. N.G. Basov coherent beam combining of two vertically polarized pump beams[31]
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    Diagram of Kumgang-4 kW coherent beam combining laser system[39]
    Fig. 3. Diagram of Kumgang-4 kW coherent beam combining laser system[39]
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    Diagram of Brillouin enhanced four-wave mixing principle[40]
    Fig. 4. Diagram of Brillouin enhanced four-wave mixing principle[40]
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    Brillouin-enhanced four-wave mixing phase-conjugating system[31]
    Fig. 5. Brillouin-enhanced four-wave mixing phase-conjugating system[31]
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    Schematic diagram of the four-beam optical coherent beam path with output near- and far- field distribution measurements at LLNL, USA[42]
    Fig. 6. Schematic diagram of the four-beam optical coherent beam path with output near- and far- field distribution measurements at LLNL, USA[42]
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    Schematic diagram of Raman amplification process in plasma[45]
    Fig. 7. Schematic diagram of Raman amplification process in plasma[45]
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    Eight-beam laser beam combining in plasma experiment at LLNL, USA[56]
    Fig. 8. Eight-beam laser beam combining in plasma experiment at LLNL, USA[56]
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    Schematic diagram of the 21 cross beam energy transfer experiment by R. K. Kirkwood et al[58]
    Fig. 9. Schematic diagram of the 21 cross beam energy transfer experiment by R. K. Kirkwood et al[58]
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    Four-color front-end system optical path diagram[62]
    Fig. 10. Four-color front-end system optical path diagram[62]
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    Raman amplification-based diamond laser beam combining at Macquarie University, Australia[66]
    Fig. 11. Raman amplification-based diamond laser beam combining at Macquarie University, Australia[66]
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    Schematic diagram of the non-collinear SBS amplification process of hundreds-picosecond pulse with active frequency compensation[75]
    Fig. 12. Schematic diagram of the non-collinear SBS amplification process of hundreds-picosecond pulse with active frequency compensation[75]
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    Design of a repetitive-rated hundred-joule level laser system based on SBS amplification laser beam combining technology[76]
    Fig. 13. Design of a repetitive-rated hundred-joule level laser system based on SBS amplification laser beam combining technology[76]
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    Abstract
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    Can Cui, Yue Wang, Yulei Wang, Zhenxu Bai, Zhiwei Lü. Research progress on nonlinear optics laser beam combining technology[J]. High Power Laser and Particle Beams, 2023, 35(4): 041006
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