Towards an improved understanding of the relationship between plasma edge and materials issues in a next-step fusion device

Counsell GF.; Federici G.; Krieger K.; Philipps V.; Skinner CH. Whyte DG.; Coad JP.

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Towards an improved understanding of the relationship between plasma edge and materials issues in a next-step fusion device

机译：旨在进一步了解下一步融合设备中等离子体边缘与材料问题之间的关系

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Long pulse lenghts, and high power and particle fluxes ensure that the biggest incremental step in a next-step fusion device will be the understanding and control of the plasma-wall interaction region. High confidence, predictive models are needed to bridge the considerable gap from existing devices. Modelling the strong, non-linear feed-back between the plasma and surface physics in this region will require significant improvements in the range and quality of diagnostic information as well as enhanced data on atomic and molecular processes and material properties. This paper highlights the key data required, discusses the need for improved diagnostics to generate these data and examines the case for future, dedicated experiments for studying plasma-wall interactions. (C) 2001 UKAEA. Published by Elsevier Science B.V. All rights reserved. [References: 39]

机译：长脉冲长度，高功率和粒子通量确保了下一步聚变设备中最大的增量步骤将是对等离子体-壁相互作用区域的理解和控制。需要高置信度的预测模型来弥合与现有设备的巨大差距。要对该区域的等离子体与表面物理之间的强力非线性反馈进行建模，将需要对诊断信息的范围和质量以及原子和分子过程以及材料特性的增强数据进行重大改进。本文重点介绍了所需的关键数据，讨论了为生成这些数据而需要进行改进的诊断的必要性，并研究了用于研究等离子体-壁相互作用的未来专用实验的案例。（C）2001 UKAEA。由Elsevier Science B.V.出版，保留所有权利。 [参考：39]

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《Journal of Nuclear Materials: Materials Aspects of Fission and Fusion》 |2001年第0期|共5页
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Counsell GF.; Federici G.; Krieger K.; Philipps V.; Skinner CH. Whyte DG.; Coad JP.;
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1. Towards an improved understanding of the relationship between plasma edge and materials issues in a next-step fusion device [J] . Counsell GF., Federici G., Krieger K., Journal of Nuclear Materials: Materials Aspects of Fission and Fusion . 2001,第0期

机译：旨在进一步了解下一步融合设备中等离子体边缘与材料问题之间的关系
2. Critical plasma-wall interaction issues for plasma-facing materials and components in near-term fusion devices [J] . Federici G., Haasz AA., Janeschitz G., Journal of Nuclear Materials: Materials Aspects of Fission and Fusion . 2000,第Pta1期

机译：近期聚变设备中面向等离子体的材料和组件的关键等离子体-壁相互作用问题
3. Ablation of high-Z material dust grains in edge plasmas of magnetic fusion devices [J] . Marenkov E. D., Krasheninnikov S. I. Physics of plasmas . 2014,第12期

机译：磁聚变装置边缘等离子体中高Z材料尘粒的烧蚀
4. Selection of plasma-facing materials in next-step fusion devices [C] . G. Federici, V. Barabash, G. Janeschitz, Symposium on Fusion Engineering . 2002

机译：下一步融合装置中的面向等离子体材料的选择
5. Fusion and Solar Plasmas: Synergistic Effects of Neutrons and Plasma on Materials in Fusion Reactors & Relaxation of Merging Magnetic Flux Ropes In Fusion and Solar Plasmas [D] . Hussain, Asad S. 2018

机译：聚变和太阳等离子体：中子和等离子体对聚变反应堆中材料的协同作用以及聚变和太阳等离子体中融合的磁通量线的松弛
6. Editorial for the Special Issue Infrared Nanophotonics: Materials Devices and Applications [O] . Tadaaki Nagao 2020

机译：特殊问题的编辑红外纳米级：材料设备和应用
7. Optimal Plasma Edge Configurations for Next-Step Fusion Reactors [O] . Dekeyser Wouter 2014

机译：下一步聚变反应堆的最佳等离子边缘配置

Towards an improved understanding of the relationship between plasma edge and materials issues in a next-step fusion device

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