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    Journals >Chinese Optics Letters >Volume 15 >Issue 2 >Page 021403 > Article
    • Chinese Optics Letters
    • Vol. 15, Issue 2, 021403 (2017)
    Six 38.7  W pulses in a burst of pulse-burst picosecond 1064  nm laser system at 1  kHz
    Mingliang Long, Meng Chen*, and Gang Li
    Author Affiliations
  • Institute of Laser Engineering, Beijing University of Technology, Beijing 100124, China
    • show less
    DOI: 10.3788/COL201715.021403 Cite this Article Set citation alerts
    Mingliang Long, Meng Chen, Gang Li, "Six 38.7  W pulses in a burst of pulse-burst picosecond 1064  nm laser system at 1  kHz," Chin. Opt. Lett. 15, 021403 (2017) Copy Citation Text show less
    LD end-pumped Nd:YVO4 beam splitting amplifier (I). (a) Incremental and (b) equal or (c) decreasing amplitude in a burst by the LPBSA (II).
    Fig. 1. LD end-pumped Nd:YVO4 beam splitting amplifier (I). (a) Incremental and (b) equal or (c) decreasing amplitude in a burst by the LPBSA (II).
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    High-power and narrowly spaced pulse-burst picosecond laser. (I) Nd:YVO4 mode-locked laser, (II) VBG stretcher, (III) LPBSA, (IV) Nd:YAG RA, and (V) a single-pass high-gain amplifier.
    Fig. 2. High-power and narrowly spaced pulse-burst picosecond laser. (I) Nd:YVO4 mode-locked laser, (II) VBG stretcher, (III) LPBSA, (IV) Nd:YAG RA, and (V) a single-pass high-gain amplifier.
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    Pulse width of mode-locked cavity (ML), VBG stretcher (VBG), RA, and a single-pass high-gain amplifier (FA).
    Fig. 3. Pulse width of mode-locked cavity (ML), VBG stretcher (VBG), RA, and a single-pass high-gain amplifier (FA).
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    Waveform of (a) mode-locked laser, (b) RA, and (c) regeneration buildup.
    Fig. 4. Waveform of (a) mode-locked laser, (b) RA, and (c) regeneration buildup.
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    Beam quality of (a) mode-locked cavity, (b) RA, and (c) a single-pass high-gain amplifier.
    Fig. 5. Beam quality of (a) mode-locked cavity, (b) RA, and (c) a single-pass high-gain amplifier.
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    Mingliang Long, Meng Chen, Gang Li, "Six 38.7  W pulses in a burst of pulse-burst picosecond 1064  nm laser system at 1  kHz," Chin. Opt. Lett. 15, 021403 (2017)
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    Paper Information
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