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    Journals >High Power Laser Science and Engineering >Volume 3 >Issue 1 >Page 01000e13 > Article
    • High Power Laser Science and Engineering
    • Vol. 3, Issue 1, 01000e13 (2015)
    Performance of rapid-grown KDP crystals with continuous filtration
    Guohang Hu1, Yueliang Wang1、2, Junxiu Chang1、2, Xiaoyi Xie1、2, Yuanan Zhao1, Hongji Qi1, and and Jianda Shao1
    Author Affiliations
  • 1Key Laboratory of Materials for High Power Laser, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Shanghai 201800, China
  • 2University of Chinese Academy of Sciences, Beijing 100049, China
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    DOI: 10.1017/hpl.2015.7 Cite this Article Set citation alerts
    Guohang Hu, Yueliang Wang, Junxiu Chang, Xiaoyi Xie, Yuanan Zhao, Hongji Qi, and Jianda Shao. Performance of rapid-grown KDP crystals with continuous filtration[J]. High Power Laser Science and Engineering, 2015, 3(1): 01000e13 Copy Citation Text show less
    Schematic system for rapid growth of KDP boules using continuous filtration.
    Fig. 1. Schematic system for rapid growth of KDP boules using continuous filtration.
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    Transmittance spectra of KDP crystals.
    Fig. 2. Transmittance spectra of KDP crystals.
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    Schematic of the detection system for bulk defects in KDP crystals.
    Fig. 3. Schematic of the detection system for bulk defects in KDP crystals.
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    Typical scattering defects (a) ‘micron size’, (b) ‘sub-micron size’, (c) ‘nano-scale cluster’.
    Fig. 4. Typical scattering defects (a) ‘micron size’, (b) ‘sub-micron size’, (c) ‘nano-scale cluster’.
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    Image of a ‘micron size’ defect captured by the optical microscope.
    Fig. 5. Image of a ‘micron size’ defect captured by the optical microscope.
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    Comparison of (a) ‘micron size’ scattering defects, (b) ‘sub-micron size’ scattering defects and (c) ‘nano-scale cluster’ between the samples grown with and without continuous filtration.
    Fig. 6. Comparison of (a) ‘micron size’ scattering defects, (b) ‘sub-micron size’ scattering defects and (c) ‘nano-scale cluster’ between the samples grown with and without continuous filtration.
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    R-on-1 laser damage probability curves for the KDP samples.
    Fig. 7. R-on-1 laser damage probability curves for the KDP samples.
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    Laser damage initiated at ‘micron size’ defects in NCF series samples.
    Fig. 8. Laser damage initiated at ‘micron size’ defects in NCF series samples.
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    Typical damage initiation in CF series samples.
    Fig. 9. Typical damage initiation in CF series samples.
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    Guohang Hu, Yueliang Wang, Junxiu Chang, Xiaoyi Xie, Yuanan Zhao, Hongji Qi, and Jianda Shao. Performance of rapid-grown KDP crystals with continuous filtration[J]. High Power Laser Science and Engineering, 2015, 3(1): 01000e13
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    Paper Information
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