Progress in the shock-ignition inertial confinement fusion concept

W. Theobald; A. Casner; R. Nora; X. Ribeyre; M. Lafon; K.S. Anderson; R. Betti; R.S. Craxton; J.A. Delettrez; J.A. Frenje; V.Yu. Glebov; O.V. Gotchev; M. Hohenberger; S.X. Hu; F.J. Marshall; R.L. McCrory; D.D. Meyerhofer; L.J. Perkins; T.C. Sangster; G. Schurtz; W. Seka; V.A. Smalyuk; C. Stoeckl; B. Yaakobi

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Progress in the shock-ignition inertial confinement fusion concept

机译：激燃惯性约束聚变概念的研究进展

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Shock-ignition experiments with peak laser intensities of ～8 × 1015 W/cm2 were performed. D2-filled plastic shells were compressed on a low adiabat by 40 of the 60 OMEGA beams. The remaining 20 beams were delayed and tightly focused onto the imploding shell to generate a strong shock. Up to 35% backscattering of laser energy was measured at the highest intensity. Hard x-ray measurements reveal a relatively low hot-electron temperature of ～40 keV, independent of intensity and spike onset time.

机译：进行了峰值激光强度为〜8×1015 W / cm2的冲击点火实验。填充D2的塑料壳在低绝热层上被60条OMEGA光束中的40条压缩。剩余的20束光束被延迟并紧紧聚焦在即将破裂的外壳上，以产生强烈的震动。在最高强度下，可测量到高达35％的激光能量反向散射。硬X射线测量表明，热电子温度较低，约为40 keV，与强度和尖峰开始时间无关。

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《EPJ Web of Conferences 》 |2013年第1期| 共4页
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W. Theobald; A. Casner; R. Nora; X. Ribeyre; M. Lafon; K.S. Anderson; R. Betti; R.S. Craxton; J.A. Delettrez; J.A. Frenje; V.Yu. Glebov; O.V. Gotchev; M. Hohenberger; S.X. Hu; F.J. Marshall; R.L. McCrory; D.D. Meyerhofer; L.J. Perkins; T.C. Sangster; G. Schurtz; W. Seka; V.A. Smalyuk; C. Stoeckl; B. Yaakobi;
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1. Progress in the shock-ignition inertial confinement fusion concept [J] . W. Theobald, A. Casner, R. Nora, EPJ Web of Conferences . 2013 ,第7期

机译：激燃惯性约束聚变概念的研究进展
2. Initial experiments on the shock-ignition inertial confinement fusion concept [J] . Theobald W, Betti R, Stoeckl C, Physics of plasmas . 2008 ,第5aPta2期

机译：冲击点火惯性约束融合概念的初步实验
3. Initial experiments on the shock-ignition inertial confinement fusion concept [J] . W. Theobald, R. Betti, C. Stoeckl, Physics of plasmas . 2008 ,第5aPta2期

机译：冲击点火惯性约束融合概念的初步实验
4. Progress in Indirect-Drive Inertial Confinement Fusion Experiments [C] . Landen, O.L., Amendt, . 2005

机译：间接驱动惯性约束融合实验的进展
5. Spatial profiling using a Time of Flight Diagnostic and applications of deuterim-deuterium fusion in Inertial Electrostatic Confinement fusion devices. [D] . Donovan, David C. 2011

机译：使用飞行时间诊断的空间轮廓分析以及氘-氘融合在惯性静电约束聚变设备中的应用。
6. Improved surrogates in inertial confinement fusion with manifold and cycle consistencies [O] . Rushil Anirudh, Jayaraman J. Thiagarajan, Peer-Timo Bremer, 2020

机译：具有流形和周期一致性的惯性约束融合的改进替代方法
7. Reply to comments by H. Nakashima, H. Takabe on the paper by T, Kammash, D.L. Galbraith 'a high gain fusion reactor based on the magnetically insulated inertial confinement fusion (MICF) concept' [O] . T Kammash, D.L Galbraith 1992

机译：通过T，Kammash，D.L，回复H. Nakashima，H. Takabe的评论。基于磁绝缘惯性监禁融合（MICF）概念的Galbraith'高增益融合反应器'
8. Inertial Confinement Fusion at Los Alamos. Volume 1, Progress in Inertial Confinement Fusion since 1985. [R] . Cartwright, D. C. 1989

机译：洛斯阿拉莫斯的惯性约束融合。第1卷，自1985年以来惯性约束聚变的进展。

Progress in the shock-ignition inertial confinement fusion concept

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