Energy Balance in the Interaction of Intense High-Temperature Plasma Flows with Solid Targets

N. I. Arkhipov; V. P. Bakhtin; S. G. Vasenin; A. M. Zhitlukhin; S. M. Kurkin; V. M. Safronov; D. A. Toporkov

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Energy Balance in the Interaction of Intense High-Temperature Plasma Flows with Solid Targets

机译：强高温等离子体流与固体靶相互作用的能量平衡

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The energy balance in the interaction of intense (W ≈ 7 MW/cm~2, Q ≈ 130 J/cm~2) flows of a high-temperature (T_e + T_i ≈ 0.7 keV) deuterium plasma with targets made of different materials (graphite, tungsten, copper, etc.) is studied experimentally. It is shown that radiation plays a decisive role in the interaction energy balance: a plasma layer arising near the surface of the eroded target reemits most of the plasma-flow energy into the surrounding space. No more than 50 J/cm~2 reaches the surface. Then, this energy is expended primarily on the target heating and only a small fraction (less than 3 J/cm~2) is spent on the evaporation of the target surface layer. It is shown that, for targets made of high-Z materials, the energy reaching the surface is transferred predominantly by radiation.

机译：高温（T_e + T_i≈0.7 keV）氘等离子体与不同材料制成的靶材之间的强（W≈7 MW / cm〜2，Q≈130 J / cm〜2）强流相互作用时的能量平衡（石墨，钨，铜等）进行了实验研究。结果表明，辐射在相互作用的能量平衡中起着决定性的作用：在被腐蚀靶材表面附近出现的等离子体层将大部分等离子体流能量重新释放到周围空间中。到达表面的压力不超过50 J / cm〜2。然后，该能量主要用于目标加热，而仅一小部分（小于3 J / cm〜2）用于目标表面层的蒸发。结果表明，对于由高Z材料制成的目标，到达表面的能量主要是通过辐射传递的。

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《Plasma physics reports》 |2002年第5期|共12页
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N. I. Arkhipov; V. P. Bakhtin; S. G. Vasenin; A. M. Zhitlukhin; S. M. Kurkin; V. M. Safronov; D. A. Toporkov;
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1. Energy Balance in the Interaction of Intense High-Temperature Plasma Flows with Solid Targets [J] . N. I. Arkhipov, V. P. Bakhtin, S. G. Vasenin, Plasma physics reports . 2002,第5期

机译：强高温等离子体流与固体靶相互作用的能量平衡
2. Production of high-density high-temperature plasma by collapsing small solid-density plasma shell with two ultra-intense laser pulses [J] . Xu H. Applied Physics Letters . 2012,第14期

机译：通过用两个超强激光脉冲瓦解小的固体密度等离子体外壳来生产高密度高温等离子体
3. Production of high-density high-temperature plasma by collapsing small solid-density plasma shell with two ultra-intense laser pulses [J] . H. Xu, Wei Yu, M. Y. Yu, Applied Physics Letters . 2012,第14期

机译：通过用两个超强激光脉冲瓦解小的固体密度等离子体外壳来生产高密度高温等离子体
4. Scattered light diagnostic of over-dense plasma cavity at ultra intense laser pulse interaction with solid target [C] . Platonov K.Yu., Sasaki A., Zhidkov A.G., Conference on ultrafast optics and superstrong laser fields . 2001

机译：超强激光脉冲相互作用的散射光诊断超强激光脉冲与固体靶相互作用
5. Radiation Generation from Ultra Intense Laser Plasma Interactions with Solid Density Plasmas for Active Interrogation of Nuclear Materials. [D] . Zulick, Calvin Andrew. 2014

机译：超强激光等离子体与固体密度等离子体相互作用产生的辐射，用于主动询问核材料。
6. Ion energy spectra directly measured in the interaction volume of intense laser pulses with clustered plasma [O] . S. G. Bochkarev, A. Faenov, T. Pikuz, -1

机译：在强激光脉冲与聚集等离子体的相互作用体积中直接测量的离子能谱
7. On The Origin of Super-Hot Electrons from Intense Laser Interactions with Solid Targets having Moderate Scale Length Preformed Plasmas [O] . A. G. Krygier, D. W. Schumacher, R. R. Freeman 2014

机译：强激光与具有中等尺度长度预制等离子体的固体靶相互作用的超热电子的起源
8. Hot Electron Diagnostic in a Solid Laser Target by K-Shell Lines Measurement from Ultra-Intense Laser-Plasma Interactions (Lambda=1.06 micrometer, 3x10(sup 20) W cm (sup -2), less than or equal to 500 J). [R] . Yasuike, K., Wharton, K. B., Key, M. H., 2000

机译：通过K-壳线测量固体激光靶中的热电子诊断来自超强激光 - 等离子体相互作用（λ= 1.06微米，3×10（sup 20）W cm（sup -2），小于或等于500J）。

Energy Balance in the Interaction of Intense High-Temperature Plasma Flows with Solid Targets

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