磁驱动金属飞片速度理论近似解析

王桂吉; 孙承纬; 蒋吉昊; 莫建军; 谭福利; 张宁; 王桂吉; 孙承纬; 蒋吉昊; 莫建军; 谭福利; 张宁

doi:10.11858/gywlxb.2008.02.005

[1]

Knudson M D, Hanson D L. Principal Hugoniot, Reverberating Wave, and Mechanical Reshock Measurements of Liquid Deuterium to 400 GPa Using Plate Impact Techniques [J]. Phys Rev B, 2004, 69: 144209.

[2]

Rothman S D, Parker K, Robinson C. Measurement of a Release Adiabat from ~8 Mbar in Lead Using Magnetically Driven Flyer Impact [J]. Phys Plasmas, 2004, 11(12): 5620-5625.

[3]

Knudson M D, Hanson D L. Use of a Reverberation Technique to Infer the Density Compression of Shocked Liquid Deuterium to 75 GPa [J]. Phys Rev Lett, 2003, 90(3): 035505.

[4]

Knudson M D, Lemke R W. Near-Absolute Hugoniot Measurements in Aluminum to 500 GPa Using a Magnetically Accelerated Flyer Plate Technique [J]. J Appl Phys, 2003, 94(7): 4420-4431.

[5]

Lemke R W, Knudson M D, Bliss D E, et al. Magnetically Accelerated, Ultrahigh Velocity Flyer Plates for Shock Wave Experiments [J]. J Appl Phys, 2005, 98: 073530(-1)-073530(-9).

[6]

Lemke R W, Knudson M D. Characterization of Magnetically Accelerated Flyer Plates [J]. Phys Plasmas, 2003, 10(4): 1092-1099.

[7]

Wang G J. Research on Magnetically Driven Isentropic Compression and Flyer Plates [D]. Mianyang: CAEP, 2007. (in Chinese)

[8]

王桂吉. 磁驱动等熵压缩和飞片加载技术和实验研究 [D]. 绵阳: 中国工程物理研究院, 2007.