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    Journals >Opto-Electronic Engineering >Volume 36 >Issue 10 >Page 51 > Article
    • Opto-Electronic Engineering
    • Vol. 36, Issue 10, 51 (2009)
    Computational Method of Flyer Plates Kinetic Energy Efficiency Based on Laser Driving
    ZHAO Xiang*, SU Wei, LI Dong-jie, and GAO Yang
    Author Affiliations
  • [in Chinese]
    • show less
    DOI: 10.3969/j.issn.1003-501x.2009.10.010 Cite this Article
    ZHAO Xiang, SU Wei, LI Dong-jie, GAO Yang. Computational Method of Flyer Plates Kinetic Energy Efficiency Based on Laser Driving[J]. Opto-Electronic Engineering, 2009, 36(10): 51 Copy Citation Text show less
    References

    [1] Paisley D L. Laser-driven miniature flyer plates for shock initiation of secondary explosives,DE89-016587 [R]. 1989.

    [2] Paisley D L,Montoya N I,StahlD B. Interferometry, streak photography,and stereo photography of laser-driven miniature flyer plates,DE91-007493 [R]. 1991.

    [3] Sheffied S A,Rogers J W,Castaneda J N. Velocity of laser driven flyers backed by high impedance windows,SAND-85-1235C [R]. 1985.

    [4] Trott W M,Meeks K D. High-Power Nd: Glass Laser Transmission Through Optical Fibres and its Use in Acceleration of Thin Foil Targets [J]. J. Appl. Phys(S0021-8979),1990,67(7):3297-3301.

    [5] Trott W M. Studies of laser-driven flyer acceleration using optical fibre coupling,DE91-13503 [R]. 1991.

    [6] Farnsworth A V,Lawrence R J. Analytical and computational modeling of small laser-driven flyer plates,DE92-004207 [R]. 1991.

    [7] GU Zuo-wei,SUN Cheng-wei. The experiments research of high-speed flyer driven by mini size pulse laser [J]. Chinese Journal of Lasers,2002,29(5):407-410.

    [8] WANG Sheng-bo,FAN Yong,WU Hong-xing. Property of laser-induced shockwave with confinement [J]. High Power Laser and Particle Beams,2004,16(8):981-984.

    [9] LU Jian,NI Xiao-wu,HUO An-zhi. Physics Theory of Laser-material Interaction [M]. Beijing:China Machine Press,1996:145-150.

    [10] SUN Cheng-wei,ZHUANG Shi-ming,WANG Chun-yan. Calculation of shock initiation of explosives impacted by the laser-driven flyer [J]. High Power Laser and Particles Beams,1997,9(3):471-476.

    [11] Watson S,Field J E. Measurement of the ablated thickness of films in the launch of laser-driven flyer plates [J]. Journal of Physics D: Applied Physics(S0022-3727),2000,33:170-174

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    ZHAO Xiang, SU Wei, LI Dong-jie, GAO Yang. Computational Method of Flyer Plates Kinetic Energy Efficiency Based on Laser Driving[J]. Opto-Electronic Engineering, 2009, 36(10): 51
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