Particle simulation study for fast ignitor research. fast ion generation by laser plasma interaction

S. Miyamoto; K. Mima

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Particle simulation study for fast ignitor research. fast ion generation by laser plasma interaction

机译：用于快速点火器研究的粒子模拟研究。通过激光等离子体相互作用快速产生离子

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In the fast ignitor scheme, an ultra intense laser is applied to accelerate an electron in a solid density plasma. When the laser photon pressure exceeds the plasma pressure, the ultra intense laser starts to accelerate the ion. In a relatively low intensity region, it is found that a shock wave is formed and high energy ions are produced due to the reflection at the shock front, in contrast with the high intensity case where the laser energy is directly converted to the ion kinetic energy. This transition of the ion acceleration mechanism results from the excess of the Mach number of the shock over its critical number. In this paper, the transition mechanism of ion acceleration and energy conversion efficiency are discussed.

机译：在快速点火器方案中，应用超强激光来加速固体密度等离子体中的电子。当激光光子压力超过等离子体压力时，超强激光开始加速离子。与在激光能量直接转换为离子动能的高强度情况相反，在强度相对较低的区域中，由于在冲击前沿产生的反射，会形成冲击波并产生高能离子。。离子加速机制的这种转变是由于冲击的马赫数超过其临界数而导致的。本文讨论了离子加速和能量转换效率的转变机理。

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《Fusion Engineering and Design》 |1999年第1999期|p.249-253|共5页
作者
S. Miyamoto; K. Mima;
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作者单位

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类原子能技术;
关键词
Fast ignitor scheme; Ultra intense laser; Electron;

机译：快速点火器方案;超强激光电子;
入库时间 2022-08-18 00:35:44

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专利

1. Particle simulation study for fast ignitor research: fast ion generation by laser plasma interaction [J] . S. Miyamoto, K. Mima Fusion Engineering and Design . 1999,第期

机译：用于快速点火器研究的粒子模拟研究：通过激光等离子体相互作用快速产生离子
2. Particle simulation studies for fast ignitor research - collisional effects on laser--plasma interactions [J] . Y. Sentoku, K. Mima, y. Xishimoto Fusion Engineering and Design . 1999,第期

机译：用于快速点火器研究的粒子模拟研究-激光-等离子体相互作用的碰撞效应
3. Particle simulation studies for fast ignitor research collisional effects on laser-plasma interactions [J] . Y. Sentoku, K. Mima, Y. Kishimoto Fusion Engineering and Design . 1999,第期

机译：用于快速点火器的粒子模拟研究，研究碰撞对激光-等离子体相互作用的影响
4. Fast ion generation in ultra-intense laser interactions with plasmas [C] . Hideaki Habara, Ryosuke Kodama, Yasuhiko Sentoku, Conference on high-power lasers in energy engineering . 2000

机译：超强激光相互作用的快速离子生成与等离子体
5. Electron generation and transport in intense relativistic laser-plasma interactions relevant to Fast Ignition ICF. [D] . Ma, Tammy Yee Wing. 2010

机译：与快速点火ICF有关的强烈相对论性激光-等离子体相互作用中的电子产生和传输。
6. Time-resolved measurements of fast electron recirculation for relativistically intense femtosecond scale laser-plasma interactions [O] . J. S. Green, N. Booth, R. J. Dance, -1

机译：相对论强度飞秒级激光-等离子体相互作用的快速电子再循环的时间分辨测量
7. Integrated kinetic simulation of laser-plasma interactions, fast-electron generation, and transport in fast ignition [O] . A. J. Kemp, B. I. Cohen, L. Divol 2010

机译：激光等离子相互作用，快速电子发电和快速点火运输的集成动力学模拟

Particle simulation study for fast ignitor research. fast ion generation by laser plasma interaction

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