The role of fast electron energy transfer in the problem of shock ignition of laser thermonuclear target
Author:
Funder
Russian Science Foundation
Publisher
Elsevier BV
Subject
Nuclear and High Energy Physics,Radiation
Reference32 articles.
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4. Low initial aspect-ratio direct-drive target designs for shock- or self-ignition in the context of the laser Megajoule;Brandon;Nucl. Fusion,2014
5. Thermonuclear targets for direct-drive ignition by a megajoule laser pulse;Bel’kov;J. Exp. Theor. Phys.,2015
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1. Investigation on the origin of hot electrons in laser plasma interaction at shock ignition intensities;Scientific Reports;2023-11-24
2. 3D Monte-Carlo model to study the transport of hot electrons in the context of inertial confinement fusion. Part I;Matter and Radiation at Extremes;2022-11-01
3. Role of hot electrons in shock ignition constrained by experiment at the National Ignition Facility;Physics of Plasmas;2022-08
4. Fast-electron maintaining a high shock-ignition gain with a significant decrease in the laser pulse energy;Plasma Physics and Controlled Fusion;2022-02-18
5. Effect of hot-electron energy distribution in the thermonuclear burn degradation in Directly-Driven Inertial Confinement Fusion;The European Physical Journal D;2021-11
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