A plasma drag hypervelocity particle accelerator (HYPER)

Digest of Technical Papers. 12th IEEE International Pulsed Power Conference. (Cat. No.99CH36358) Pub Date : 1999-06-27 DOI:10.1109/PPC.1999.825437

S. Best

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引用次数: 16

Abstract

Current debris models are able to predict the growth of the space debris problem and suggest that spacecraft must employ armor or bumper shields for some orbital altitudes now and that the problem will become worse as a function of time. The practical upper limit to the velocity distribution is on the order of 40 km/s and is associated with the natural environment. The velocity distribution of the man-made component peaks at 9-10 km/s with maximum velocity in the 14-16 km/s range. Experience in space has verified that the "high probability of impact" particles are in the microgram to milligram range. These particles can have very significant effects on coatings, insulators and thin metallic layers. The surface of thick materials becomes pitted and the local debris component is enhanced by ejecta from the impact events. In this paper, the HYPER facility is described which produces a reasonable simulation of the man-made space debris spectrum in a controlled environment. The facility capability is discussed in terms of drive geometry, energetics, velocity distribution, diagnostics, and projectile/debris loading.

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等离子体拖拽超高速粒子加速器

目前的碎片模型能够预测空间碎片问题的增长，并建议航天器现在必须在某些轨道高度使用装甲或缓冲器护盾，并且随着时间的推移，问题将变得更糟。速度分布的实际上限约为40 km/s，并与自然环境有关。人造分量的速度分布在9 ~ 10 km/s之间，最大速度在14 ~ 16 km/s之间。太空经验证实，“大概率撞击”的粒子在微克到毫克的范围内。这些颗粒会对涂层、绝缘体和薄金属层产生非常显著的影响。厚材料的表面出现凹坑，局部碎片成分因撞击事件的喷射而增强。本文介绍了在受控环境下对人造空间碎片光谱进行合理模拟的HYPER设施。从驱动几何、能量学、速度分布、诊断和弹丸/碎片载荷等方面讨论了该设施的能力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Digest of Technical Papers. 12th IEEE International Pulsed Power Conference. (Cat. No.99CH36358)

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