Target Area Design of an Inertial Confinement Fusion Laser Driver Compatible with Multiple Irradiation Configurations of Targets

Ren Lei; Zhu Jianqiang

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Target Area Design of an Inertial Confinement Fusion Laser Driver Compatible with Multiple Irradiation Configurations of Targets

机译：与目标的多种辐照配置兼容的惯性约束融合激光驱动器的目标区域设计

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The target area of a 288-beam inertial confinement fusion laser driver was designed to allow lasers for direct-drive illumination, spherical hohlraum with six laser entrance holes (6LEHs), and baseline cylindrical hohlraums. The suggested radius of a target chamber was 6.0 m based on the ratio of the total port area to chamber area. Beam port distribution on the chamber was calculated if the direct propagation of laser beams into opposing beam ports was avoided, and this distribution was compatible with spherical hohlraums with 6LEHs without additional ports opened. According to the symmetry of the beam port distribution, an X-shaped beam-guiding system (BGS) in the switchyard was proposed and arranged within a baseline algorithm. The switch between direct-and indirect-drive modes was easy to operate using this BGS concept.

机译：288光束惯性约束聚变激光驱动器的目标区域设计为允许激光器进行直接驱动照明，具有六个激光入射孔（6LEHs）的球形透孔和基线圆柱形透孔。基于总端口面积与腔室面积之比，目标腔室的建议半径为6.0 m。如果避免将激光束直接传播到相对的光束端口中，则可以计算腔室上的光束端口分布，并且该分布与具有6LEH的球形光罩兼容，而无需打开其他端口。根据光束端口分布的对称性，提出了开关站中的X形光束导引系统（BGS），并将其布置在基线算法内。使用这种BGS概念，可以轻松进行直接驱动模式和间接驱动模式之间的切换。

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来源
《Fusion Science and Technology》 |2017年第2期|137-143|共7页
作者
Ren Lei; Zhu Jianqiang;
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作者单位

Chinese Acad Sci, Natl Lab High Power Laser & Phys, Shanghai Inst Opt & Fine Mech, 390 Qinghe Rd, Shanghai 201800, Peoples R China;

Chinese Acad Sci, Natl Lab High Power Laser & Phys, Shanghai Inst Opt & Fine Mech, 390 Qinghe Rd, Shanghai 201800, Peoples R China;

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正文语种 eng
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关键词
Target area; beam-guiding system; laser drivers;

机译：目标区域;光束引导系统;激光驱动器;
入库时间 2022-08-18 04:06:31

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1. Laser targets compensate for limitations in inertial confinement fusion drivers [J] . Kilkenny JD, Alexander NB, Nikroo A, Laser and Particle Beams . 2005,第4期

机译：激光目标弥补了惯性约束聚变驱动器的局限性
2. EFFECT OF MIXING AT THE FUEL-ABLATOR INTERFACE ON THE BURNING OF INERTIAL CONFINEMENT FUSION TARGETS UPON DIRECT IRRADIATION WITH A MEGAJOULE LASER PULSE [J] . Guskov S. Yu., Demchenko N. N., Zmitrenko N. V., Journal of Russian laser research . 2017,第2期

机译：巨型激光脉冲直接辐照混合在燃料与烧蚀剂界面上对惰性约束熔合目标燃烧的影响
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5. A Droplet-based Lab-on-Chip Approach for the Fabrication of Polymeric Inertial Confinement Fusion Target Shells [D] . Viza, Nelia Del Pilar. 2018

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6. Brain Metastases in Lung Cancers with Emerging Targetable Fusion Drivers [O] . Aaron C. Tan, Malinda Itchins, Mustafa Khasraw 2020

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7. Studies of laser-plasma interaction physics with low-density targets for direct-drive inertial confinement fusion on the Shenguang III prototype [O] . V. T. Tikhonchuk, T. Gong, N. Jourdain, 2021

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8. Relationship Between the TDF (Target Development Facility) and Commercial ICF (Inertial Confinement Fusion) Drivers [R] . Olson, R. E. 1987

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Target Area Design of an Inertial Confinement Fusion Laser Driver Compatible with Multiple Irradiation Configurations of Targets

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