Solid deuterium-tritium surface roughness in a beryllium inertial confinement fusion shell

B. J. Kozioziemski; D. S. Montgomery; J. D. Sater; J. D. Moody; C. Gautier; J. W. Pipes

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Solid deuterium-tritium surface roughness in a beryllium inertial confinement fusion shell

机译：铍惯性约束聚变壳中的氘-固体表面粗糙度

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Solid deuterium-tritium (D-T) fuel layers for inertial confinement fusion experiments were formed inside a 2 mm diameter beryllium shell and were characterized using phase-contrast enhanced x-ray imaging. The solid D-T surface roughness is found to be 0.4 μm for modes 7-128 at 1.5 K below the melting temperature. The layer roughness is found to increase with decreasing temperature, in agreement with previous visible light characterization studies. However, phase-contrast enhanced x-ray imaging provides a more robust surface roughness measurement than visible light methods. The new x-ray imaging results demonstrate clearly that the surface roughness decreases with time for solid D-T layers held at 1.5 K below the melting temperature.

机译：在直径为2 mm的铍壳内部形成了用于惯性约束聚变实验的固体氘2（D-T）燃料层，并使用相衬增强X射线成像对其进行了表征。发现在低于熔化温度1.5 K时，模式7-128的固体D-T表面粗糙度为0.4μm。发现层粗糙度随温度降低而增加，这与先前的可见光表征研究一致。但是，相衬增强X射线成像比可见光方法提供了更可靠的表面粗糙度测量。新的X射线成像结果清楚地表明，对于保持在熔融温度以下1.5 K的固体D-T层，表面粗糙度会随时间而降低。

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来源
《Nuclear fusion》 |2007年第1期|1-8|共8页
作者
B. J. Kozioziemski; D. S. Montgomery; J. D. Sater; J. D. Moody; C. Gautier; J. W. Pipes;
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作者单位

Lawrence Livermore National Laboratory, Livermore, CA 94551, USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类原子核物理学、高能物理学;
关键词
edge and boundary effects; reflection and refraction; laser inertial confinement; digital radiography; interface structure and roughness; X-ray beams and x-ray optics; edge and boundary effects; reflection and refraction;

机译：边缘和边界效应;反射和折射;激光惯性约束数字射线照相;界面结构和粗糙度;X射线束和X射线光学器件;边缘和边界效应;反射和折射;

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专利

1. Solid deuterium-tritium surface roughness in a beryllium inertial confinement fusion shell [J] . Kozioziemski BJ, Montgomery DS, Sater JD, Nuclear fusion . 2007,第1期

机译：铍惯性约束聚变壳中的氘-固体表面粗糙度
2. Unified first-principles equations of state of deuterium-tritium mixtures in the global inertial confinement fusion region [J] . Dongdong Kang, Yong Hou, Qiyu Zeng, 极端条件下的物质与辐射（英文） . 2020,第005期

机译：全球惯性监禁融合区氘氚混合物状态统一的第一原理方程
3. First-principles studies on the equation of state, thermal conductivity, and opacity of deuterium-tritium (DT) and polystyrene (CH) for inertial confinement fusion applications [J] . S X Hu, L A Collins, V N Goncharov, Journal of Physics: Conference Series . 2016,第1期

机译：惯性约束聚变应用中氘-（DT）和聚苯乙烯（CH）的状态，导热系数和不透明度方程的第一性原理研究
4. Fast-formed liquid surfaces for inertial confinement fusion target shells [C] . Stephens, R.B. . 1994

机译：用于惯性约束聚变靶壳的快速形成的液体表面
5. A Droplet-based Lab-on-Chip Approach for the Fabrication of Polymeric Inertial Confinement Fusion Target Shells [D] . Viza, Nelia Del Pilar. 2018

机译：用于制备聚合物惯性禁闭融合靶壳的液滴实验室方法
6. Effect of pH on Effective Slip Length and Surface Charge at Solid–Oil Interfaces of Roughness-Induced Surfaces [O] . Porui Tian, Yifan Li 2021

机译：pH对粗糙诱导表面固体油界面有效滑动长度和表面电荷的影响
7. Solid deuterium–tritium surface roughness in a beryllium inertial confinement fusion shell [O] . B.J Kozioziemski, D.S Montgomery, J.D Sater, 2006

机译：铍惯性监禁熔炉中固体氘氚表面粗糙度

Solid deuterium-tritium surface roughness in a beryllium inertial confinement fusion shell

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