Point design targets, specifications, and requirements for the 2010 ignition campaign on the National Ignition Facility
SW Haan, JD Lindl, DA Callahan, DS Clark… - Physics of …, 2011 - pubs.aip.org
Point design targets have been specified for the initial ignition campaign on the National
Ignition Facility [GH Miller, EI Moses, and CR Wuest, Opt. Eng. 443, 2841 (2004)]. The …
Ignition Facility [GH Miller, EI Moses, and CR Wuest, Opt. Eng. 443, 2841 (2004)]. The …
[PDF][PDF] 激光惯性约束聚变靶制备技术研究进展 D
高莎莎, 吴小军, 何智兵, 何小珊, 王涛, 朱方华… - 强激光与粒子束, 2020 - researching.cn
在实验室实现聚变反应释放的能量大于点燃聚变反应所需能量的阈值是当今世界ICF
研究的主要目标, 实现这一目标仍需要深入研究一系列的关键物理问题. 在ICF 研究中 …
研究的主要目标, 实现这一目标仍需要深入研究一系列的关键物理问题. 在ICF 研究中 …
Diamond spheres for inertial confinement fusion
J Biener, DD Ho, C Wild, E Woerner, MM Biener… - Nuclear …, 2009 - iopscience.iop.org
Abstract The National Ignition Facility (NIF) will allow scientists to prove the feasibility of
inertial confinement fusion (ICF). The success of ICF experiments at NIF will critically depend …
inertial confinement fusion (ICF). The success of ICF experiments at NIF will critically depend …
Plastic ablator ignition capsule design for the National Ignition Facility
DS Clark, SW Haan, BA Hammel, JD Salmonson… - Physics of …, 2010 - pubs.aip.org
The National Ignition Campaign, tasked with designing and fielding targets for fusion ignition
experiments on the National Ignition Facility (NIF)[GH Miller, EI Moses, and CR Wuest, Nucl …
experiments on the National Ignition Facility (NIF)[GH Miller, EI Moses, and CR Wuest, Nucl …
Optimized beryllium target design for indirectly driven inertial confinement fusion experiments on the National Ignition Facility
AN Simakov, DC Wilson, SA Yi, JL Kline, DS Clark… - Physics of …, 2014 - pubs.aip.org
For indirect drive inertial confinement fusion, Beryllium (Be) ablators offer a number of
important advantages as compared with other ablator materials, eg, plastic and high density …
important advantages as compared with other ablator materials, eg, plastic and high density …
[HTML][HTML] Implosion performance of subscale beryllium capsules on the NIF
Many inertial fusion designs use capsules made of beryllium, as its high mass ablation rate
is advantageous. We present the first systematic experimental study of indirectly driven …
is advantageous. We present the first systematic experimental study of indirectly driven …
[HTML][HTML] Beryllium capsule implosions at a case-to-capsule ratio of 3.7 on the National Ignition Facility
Beryllium is a candidate ablator material for indirect-drive inertial confinement fusion
experiments, motivated by its high mass ablation rate, which is advantageous for implosion …
experiments, motivated by its high mass ablation rate, which is advantageous for implosion …
Research progress of fabrication techniques for laser inertial confinement fusion target
G Shasha, W Xiaojun, H Zhibing, H Xiaoshan, W Tao… - 强激光与粒子束, 2020 - hplpb.com.cn
The main goal of inertial confinement fusion (ICF) research is to realize that the energy
released by fusion reaction is greater than the threshold value of ignition fusion reaction in …
released by fusion reaction is greater than the threshold value of ignition fusion reaction in …
National Ignition Facility target design and fabrication
RC Cook, BJ Kozioziemski, A Nikroo… - Laser and Particle …, 2008 - cambridge.org
The current capsule target design for the first ignition experiments at the NIF Facility
beginning in 2009 will be a copper-doped beryllium capsule, roughly 2 mm in diameter with …
beginning in 2009 will be a copper-doped beryllium capsule, roughly 2 mm in diameter with …
Experimental study and modelling of deuterium thermal release from Be–D co-deposited layers
MJ Baldwin, T Schwarz-Selinger, RP Doerner - Nuclear Fusion, 2014 - iopscience.iop.org
A study of the thermal desorption of deuterium from 1 µm thick co-deposited Be–(0.1) D
layers formed at 330 K by a magnetron sputtering technique is reported. A range of thermal …
layers formed at 330 K by a magnetron sputtering technique is reported. A range of thermal …