Particle simulation studies for fast ignitor research collisional effects on laser-plasma interactions

Y. Sentoku; K. Mima; Y. Kishimoto

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Particle simulation studies for fast ignitor research collisional effects on laser-plasma interactions

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

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Relativistic binary collision effects on intense laser-plasma interactions were investigated by the Monte Carlo Coulomb model into a particle simulation code. Our collision model is fully relativistic and collision frequencies are calculated in the framework of quantum electrodynamics (QED). As benchmark tests, we simulated the following two cases. The first one is for the electron heat transport in a steep temperature gradient and the second is for the electron energy distribution function of plasmas heated by the inverse bremsstrahulung. The results of the simulations agree well with previous works. The surface plasma heating and fast ion generation have also been investigated for a solid target interaction with an intense laser beam. The collisional effects are very important even in the intensity range of 10~18-10~19 W/cm~2.

机译：通过蒙特卡洛库伦模型研究了相对论二元碰撞对强激光-等离子体相互作用的影响，并将其转化为粒子模拟代码。我们的碰撞模型是完全相对论的，碰撞频率是在量子电动力学（QED）框架内计算的。作为基准测试，我们模拟了以下两种情况。第一个用于在陡峭的温度梯度下进行电子传热，第二个用于通过逆致辐射加热的等离子体的电子能量分布函数。仿真结果与以前的工作非常吻合。还研究了表面等离子体加热和快速离子产生的过程，以了解固体靶与强激光束的相互作用。即使在10〜18-10〜19 W / cm〜2的强度范围内，碰撞效果也非常重要。

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《Fusion Engineering and Design》 |1999年第1999期|233-237|共5页
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Y. Sentoku; K. Mima; Y. Kishimoto;
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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);
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正文语种 eng
中图分类原子能技术;
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1. 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
2. Studies of intense laser-plasma interactions for the fast ignitor concept at ILE, Osaka University [J] . Kodama R., Yamanaka T., Kato Y., Plasma physics and controlled fusion . 1999,第0期

机译：大阪大学ILE的快速点火器概念的强激光-等离子体相互作用研究
3. 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
4. Novel techniques for modeling of laser-plasma interactions in particle-in-cell codes for use in hohlraum simulations [C] . Carsten H. Thoma, Dale R. Welch, Robert E. Clark, IEEE International Conference on Plasma Sciences . 2016

机译：用于全息模拟中的细胞内粒子内激光-等离子体相互作用建模的新技术
5. Nonlinear and multi-wave effects in fast-scale laser-plasma interactions. [D] . Lindberg, Ryan Roger. 2007

机译：快速尺度激光-等离子体相互作用中的非线性和多波效应。
6. Tuning the Structure of Pt Nanoparticles through SupportInteractions: An in Situ Polarized X-ray Absorption Study Coupledwith Atomistic Simulations [O] . M. Ahmadi, §, J. Timoshenko, -1

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7. Particle integrator for particle-in-cell simulations of ultra-high intensity laser-plasma interactions [O] . Kavin Tangtartharakul, Guangye Chen, Alexey Arefiev 2021

机译：用于超高强度激光等离子体相互作用的粒子内模拟的粒子积分器
8. Ultra-intense, short pulse laser-plasma interactions with applications to the fast ignitor [R] . Wilks, S. C. , Kruer, W. L. , Young, P. E. , 1995

机译：超强，短脉冲激光 - 等离子体相互作用，适用于快速点火器

Particle simulation studies for fast ignitor research collisional effects on laser-plasma interactions

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