REACHING HIGH-YIELD FUSION WITH A SLOW PLASMA LINER COMPRESSING A MAGNETIZED TARGET

D. D. RYUTOV; P. B. PARKS

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REACHING HIGH-YIELD FUSION WITH A SLOW PLASMA LINER COMPRESSING A MAGNETIZED TARGET

机译：用慢速等离子体衬套压缩磁化目标物达到高产量融合

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摘要

Dynamics of the compression of a magnetized plasma target by a heavy liner made of partially ionized high-Z material is discussed. A soft-landing (shockless) mode of the liner deceleration is analyzed. Conclusion is drawn that such mode is possible for the liners whose thickness at the time of the first contact with the target is smaller than ~10% of the initial (uncompressed) target radius. A combination of the plasma liner with one or two glide cones allows for direct access to the area near the center of the reactor chamber. One can then generate a plasma target inside the plasma liner at the optimum time. The other advantage of the glide cones is that they can be used to deliver additional fuel to the center of the target near the point of maximum compression and thereby increase the fusion yield.

机译：讨论了由部分电离的高Z材料制成的重衬套对磁化等离子体靶的压缩动力学。分析了班轮减速的软着陆（无冲击）模式。得出的结论是，对于首次与靶材接触时厚度小于初始（未压缩）靶材半径约10％的衬里，这种模式是可行的。等离子体衬里与一个或两个滑翔锥的组合允许直接进入反应器腔室中心附近的区域。然后可以在最佳时间在等离子体衬管内生成等离子体靶。滑行锥的另一个优点是，它们可以用于在最大压缩点附近向目标中心输送额外的燃料，从而提高聚变产量。

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来源
《Fusion Science and Technology》 |2008年第4期|p.978-988|共11页
作者
D. D. RYUTOV; P. B. PARKS;
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作者单位

Lawrence Livermore National Laboratory, Livermore, California 94551;

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原文格式 PDF
正文语种 eng
中图分类原子能技术;
关键词
plasma liner; magnetized target fusion; magneto-inertial fusion;

机译：等离子体衬里;磁化靶融合;磁惯性融合;

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专利

1. Effect of liner non-uniformity on plasma instabilities in an inverse Z-pinch magnetized target fusion system: liner-on-plasma simulations and comparison with linear stability analysis [J] . Subhash PV, Madhavan S, Chaturvedi S Physica Scripta: An International Journal for Experimental and Theoretical Physics . 2008,第3期

机译：Z轴反磁化目标融合系统中衬管不均匀性对等离子体不稳定性的影响：等离子体衬管模拟和与线性稳定性分析的比较
2. On the efficacy of imploding plasma liners for magnetized fusion target compression [J] . Parks PB Physics of plasmas . 2008,第6期

机译：关于内爆等离子体衬套对磁化聚变靶压缩的功效
3. Two-dimensional magnetohydrodynamic liner-on-plasma simulations for the compression phase of a magnetized target fusion system based on inverse Z pinch [J] . Subhash PV, Madhavan S, Chaturvedi S Physics of plasmas . 2006,第7期

机译：基于反Z夹点的磁化目标聚变系统压缩相的二维磁流体动力学线性等离子体模拟
4. Method for detection and measurement of impurities in plasmas formed and compressed to magnetized target fusion conditions [C] . Degnan, J.H. . 2001

机译：检测和测量形成并压缩至磁化目标聚变条件的等离子体中杂质的方法
5. Numerical modeling studies of a coaxial plasma accelerator as a standoff driver for magnetized target fusion. [D] . Cassibry, Jason T. 2004

机译：同轴等离子体加速器作为磁化目标聚变的对撞驱动器的数值模型研究。
6. A Complete Automatic Target Recognition System of Low Altitude Small RCS and Slow Speed (LSS) Targets Based on Multi-Dimensional Feature Fusion [O] . Qi Wu, Jie Chen, Yue Lu, 2019

机译：基于多维特征融合的低海拔小RCS和慢速（LSS）目标的完整目标自动识别系统
7. Generation and compression of a target plasma for magnetized target fusion [O] . Kirkpatrick, R.C., Lindemuth, I.R., Sheehey, P.T. 1998

机译：用于磁化目标融合的目标等离子体的产生和压缩
8. Reaching High-Yield Fusion with a Slow Plasma Liner Compressing a Magnetized Target. [R] . Ryutov, D. D., Parks, P. B. 2008

机译：用缓慢的等离子衬垫压缩磁化靶进入高产熔合。

REACHING HIGH-YIELD FUSION WITH A SLOW PLASMA LINER COMPRESSING A MAGNETIZED TARGET

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