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Laser-Driven Ultra-Relativistic Plasmas - Nuclear Fusion in Coulomb Shock Waves, Rouge Waves, and Background Matter.

机译：激光驱动的超相对论等离子体 - 库仑冲击波，胭脂波和背景物质中的核聚变。

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In this grant period this PI developed new research directions and made progress in his fundamental and application research done previously for AFOSR. This PI predicted a new optical effect whereby a media with slow spatial gradient of its characteristics is found to exhibit a universal wave pattern ('gradient marker') in a vicinity of the maxima/minima of the gradient; it is common for optics, acoustics, and quantum mechanics. Among potential applications of this effect is contour-detection and tracing of large moving submerged objects in the ocean. In his recent review [2], this PI has continued his research in the extreme ultra-short pulses beyond attosecond domain, which he pioneered in his research for AFOSR long ago by proposing the way to generate so called 'zepto-second' pulses. In his paper [3], this PI predicted that an overdense plasma layer irradiated by intense light should exhibit dramatic nonlinear-optical effects due to a relativistic mass-effect of free electrons: highly-multiple hysteresises of reflection and transition,and emergence of immobile waves of large amplitude. Those are trapped quasi-solitons in the layer sustained by a weak pumping having a tiny fraction of their peak intensity once they have been excited first by higher power pumping. The phenomenon persists even in the layers with 'soft' boundaries, as well as in a semi-infinite plasma with low absorption. These effects could be used for laser fusion to deposit laser power much deeper into the fusion pallets; or for heating the ionosphere layers by a powerful radiation. This PI also continued his study of laser-excited atomic nano-structures, which were predicted by him earlier in collaboration with his post-doc Volkov in the research under AFOSR grant.

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作者
Kaplan, A.;
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年度 2015
页码 1-19
总页数 19
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Plasmas(physics); Hysteresis; Laser induced fusion; Lasers; Optics; Optical effects; Wave patterns;

机译：等离子体（物理）;磁滞;激光诱导融合;激光;光学;光学效应;波模式;

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1. Three-Dimensional Isothermal Ion Acoustic Shock Waves in Ultra-Relativistic Degenerate Electron-Positron-Ion Magnetoplasmas [J] . El-Shamy E. F., Selim M. M., El-Depsy A. Plasma physics reports . 2020,第4期

机译：超相对论退化电子 - 正电子正极电压磁体的三维等温离子声冲击
2. Comment on the article Solitary waves and double layers in an ultra-relativistic degenerate dusty electron-positron-ion plasma [Phys. Plasmas 19, 033705 (2012)] [J] . Akbari-Moghanjoughi M. Physics of plasmas . 2012,第6期

机译：评论文章超相对论简并的尘土电子正电子离子等离子体中的孤波和双层[Phys。 Plasmas 19，033705（2012）]
3. Response to Comment on Solitary waves and double layers in an ultra-relativistic degenerate dusty electron-positron-ion plasma' [Phys. Plasmas 19, 064703 (2012)] [J] . Roy N. Physics of plasmas . 2012,第6期

机译：对超相对论简并的多尘电子正电子离子等离子体中“孤波和双层”评论的回应。 Plasmas 19，064703（2012）]
4. On the design of experiments for the study of extreme field limits in the ultra-relativistic interaction of electromagnetic waves with plasmas [C] . Sergei V. Bulanov, Timur Z. Esirkepov, Yukio Hayashi, Diode-Pumped high energy and high power lasers; ELI: Ultrarelativistic laser-matter interactions and petawatt photonics; and HiPER: the European pathway to laser energy . 2011

机译：关于电磁波与等离子体的超相对论相互作用中的极限场研究的实验设计
5. Collisional Effects on Electrostatic Shock Waves and Heating in Laser-Generated Plasmas [D] . Sundstr?m, Andréas. 2020

机译：激光产生等离子体静电冲击波和加热的碰撞影响
6. Interferometric analysis of laser-driven cylindrically focusing shock waves in a thin liquid layer [O] . David Veysset, Alexei A. Мaznev, Thomas Pezeril, -1

机译：激光驱动圆柱形聚焦激波在薄液层中的干涉分析
7. Comment on the article "Solitary waves and double layers in an ultra-relativistic degenerate dusty electron-positron-ion plasma" [Phys. Plasmas extbf{19}, 033705 (2012)] [O] . Akbari-Moghanjoughi, M. 2012

机译：评论文章“孤波与双层” 超相对论退化尘埃电子 - 正电子离子等离子体“[phys。 plasmas \ textbf {19}，033705（2012）]

Laser-Driven Ultra-Relativistic Plasmas - Nuclear Fusion in Coulomb Shock Waves, Rouge Waves, and Background Matter.

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