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High Power Laser Science and Engineering, Volume. 6, Issue 1, 010000e1(2018)

Optimizing the cleanliness in multi-segment disk amplifiers based on vector flow schemes On the Cover

Zhiyuan Ren, Jianqiang Zhu, Zhigang Liu, and Xiaowei Yang
Author Affiliations
  • Key Laboratory on High Power Laser and Physics, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Shanghai 201800, China
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    Figures & Tables(7)
    The configuration of the 130-disk amplifier.

    Fig. 1. The configuration of the 130-disk amplifier.

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    Flow field of the cavity of the 130-disk amplifier: (a) numerical simulation result; (b) experimental result.

    Fig. 2. Flow field of the cavity of the 130-disk amplifier: (a) numerical simulation result; (b) experimental result.

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    Concentration change of contaminant particles with time in the 130-disk amplifier.

    Fig. 3. Concentration change of contaminant particles with time in the 130-disk amplifier.

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    Current configuration of inlets and outlets for the multi-segment disk amplifier. (a) Configuration of the multi-segment disk amplifier. (b) Simulation model of the multi-segment disk amplifier.

    Fig. 4. Current configuration of inlets and outlets for the multi-segment disk amplifier. (a) Configuration of the multi-segment disk amplifier. (b) Simulation model of the multi-segment disk amplifier.

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    Flow field of the current multi-segment disk amplifier: (a) velocity distribution in the cavity; (b) streamline in the cavity; (c) velocity distribution on the surface of Nd:glass; (d) streamline on the surface of Nd:glass.

    Fig. 5. Flow field of the current multi-segment disk amplifier: (a) velocity distribution in the cavity; (b) streamline in the cavity; (c) velocity distribution on the surface of Nd:glass; (d) streamline on the surface of Nd:glass.

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    Optimized configuration of inlets and outlets of the amplifier.

    Fig. 6. Optimized configuration of inlets and outlets of the amplifier.

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    Flow field of the multi-segment disk amplifier with the vector flow scheme: (a) velocity distribution in the cavity; (b) streamline in the cavity; (c) velocity distribution on the surface of Nd:glass; (d) streamline on the surface of Nd:glass.

    Fig. 7. Flow field of the multi-segment disk amplifier with the vector flow scheme: (a) velocity distribution in the cavity; (b) streamline in the cavity; (c) velocity distribution on the surface of Nd:glass; (d) streamline on the surface of Nd:glass.

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    Zhiyuan Ren, Jianqiang Zhu, Zhigang Liu, Xiaowei Yang. Optimizing the cleanliness in multi-segment disk amplifiers based on vector flow schemes[J]. High Power Laser Science and Engineering, 2018, 6(1): 010000e1

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    Paper Information

    Special Issue: HIGH ENERGY DENSITY PHYSICS AND HIGH POWER LASERS

    Received: Oct. 5, 2017

    Accepted: Dec. 1, 2017

    Published Online: Jul. 2, 2018

    The Author Email: Zhiyuan Ren (renzhiyuan@siom.ac.cn)

    DOI:10.1017/hpl.2017.36

    Topics

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