Experimental characterization of railgun-driven supersonic plasma jets motivated by high energy density physics applications

S. C. Hsu; E. C. Merritt; A. L. Moser; T. J. Awe; S. J. E. Brockington; J. S. Davis; C. S. Adams; A. Case; J. T. Cassibry; J. P. Dunn; M. A. Gilmore; A. G. Lynn; S. J. Messer; F. D. Witherspoon

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Experimental characterization of railgun-driven supersonic plasma jets motivated by high energy density physics applications

机译：高能量密度物理应用激发的轨道炮驱动超声等离子体射流的实验表征

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We report experimental results on the parameters, structure, and evolution of high-Mach-number (M) argon plasma jets formed and launched by a pulsed-power-driven railgun. The nominal initial average jet parameters in the data set analyzed are density ≈2 ×10~16 cm~(-3), electron temperature ≈1.4 eV, velocity ≈30 km/s;,M≈14, ionization fraction ≈0.96, diameter ≈5 cm, and length ≈ 20 cm. These values approach the range needed by the Plasma Liner Experiment, which is designed to use merging plasma jets to form imploding spherical plasma liners that can reach peak pressures of 0.1–1 Mbar at stagnation. As these jets propagate a distance of approximately 40 cm, the average density drops by one order of magnitude, which is at the very low end of the 8–160 times drop predicted by ideal hydrodynamic theory of a constant-M jet.

机译：我们报告了由脉冲功率驱动的轨道炮形成和发射的高马赫数（M）氩等离子体射流的参数，结构和演变的实验结果。分析数据集中的名义初始平均射流参数为密度≈2×10〜16 cm〜（-3），电子温度≈1.4eV，速度≈30km / s;，M≈14，电离分数≈0.96，直径≈5厘米，长度≈20厘米。这些值接近等离子衬管实验所需的范围，该实验旨在使用合并的等离子流形成爆破的球形等离子衬管，在停滞状态下可达到0.1–1 Mbar的峰值压力。当这些喷流传播大约40 cm的距离时，平均密度下降一个数量级，这是恒M喷流理想流体力学理论预测的降落的8–160倍的极低端。

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《Physics of plasmas》 |2012年第12期|共13页
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S. C. Hsu; E. C. Merritt; A. L. Moser; T. J. Awe; S. J. E. Brockington; J. S. Davis; C. S. Adams; A. Case; J. T. Cassibry; J. P. Dunn; M. A. Gilmore; A. G. Lynn; S. J. Messer; F. D. Witherspoon;
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1. Experimental characterization of railgun-driven supersonic plasma jets motivated by high energy density physics applications [J] . S. C. Hsu, E. C. Merritt, A. L. Moser, Physics of plasmas . 2012,第12期

机译：高能量密度物理应用激发的轨道炮驱动超声等离子体射流的实验表征
2. Experimental characterization of a transition from collisionless to collisional interaction between head-on-merging supersonic plasma jets [J] . Moser Auna L., Hsu Scott C. Physics of plasmas . 2015,第5aPta1期

机译：头对合超音速等离子射流从无碰撞到碰撞相互作用过渡的实验表征
3. Experimental Characterization of the Stagnation Layer between Two Obliquely Merging Supersonic Plasma Jets [J] . E. C. Merritt, A. L. Moser, S. C. Hsu, Physical review letters . 2013,第8期

机译：两个倾斜合并的超音速等离子射流之间的停滞层的实验表征
4. Magnetically Driven Supersonic Plasma Jets in High Energy Density Experiments [C] . F. Suzuki-Vidal, S. V. Lebedev, A. Ciardi, International Symposium "Plasmas in the Laboratory and in the Universe: Interactions, Patterns, and Turbulence" . 2010

机译：高能密度实验中的磁力驱动的超音速等离子体喷射
5. Experimental aerodynamic analysis of a plug nozzle for supersonic business jet application [D] . Tapee, John L. 2009

机译：用于超音速公务机的旋塞喷嘴的空气动力学实验分析
6. Very low energy cross sections for collision-induced rotational relaxation of I2 seeded in a supersonic free jet [O] . James Tusa, Mark Sulkes, Stuart A. Rice 1980

机译：超音速自由射流中I2的碰撞诱导的I2旋转弛豫的能量截面非常低
7. Experimental characterization of railgun-driven supersonic plasma jets motivated by high energy density physics applications [O] . S. C. Hsu, E. C. Merritt, A. L. Moser, 2012

机译：高能量密度物理应用的轨道驱动超声血浆喷射试验表征

Experimental characterization of railgun-driven supersonic plasma jets motivated by high energy density physics applications

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