Charge Neutralization via Arcing on a Large Solar Array in the GEO Plasma Environment

Kawasaki T.; Hosoda S.; Kim J.; Toyoda K.; Cho M.

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Charge Neutralization via Arcing on a Large Solar Array in the GEO Plasma Environment

机译：在GEO等离子环境中通过大太阳电池阵列上的电弧中和电荷

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The purpose of this paper is to investigate the arc plasma propagation phenomena in a geostationary-orbit plasma environment. Electrostatic discharge tests were carried out using a large solar-array coupon (400 times 400 mm). The coupon consisted of 50 Si cells. The surface potential of the solar-array coupon immediately after arc inception was measured. The area neutralized due to arc plasma propagation differed in each arc. Some arcs neutralized a large area of solar cells even though the ratio of neutralization was not 100% everywhere. As the distance from the arc site increased, less charge was generally neutralized. The arc plasma propagation velocity was of the order of 104 m/s; but, it differed widely in each arc

机译：本文的目的是研究地球静止轨道等离子体环境中电弧等离子体的传播现象。静电放电测试是使用大型太阳能阵列试样（400倍于400毫米）进行的。试样由50个硅电池组成。在刚起弧后就测量了太阳能电池阵列试样的表面电势。由于电弧等离子体传播而被中和的面积在每个电弧中都不同。即使不是每个地方的中和率都为100％，某些电弧也会中和大面积的太阳能电池。随着距电弧位置的距离增加，通常会中和较少的电荷。电弧等离子体的传播速度为104 m / s。但是，它在每个弧中差异很大

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来源
《IEEE Transactions on Plasma Science》 |2006年第2006期|p.1979-1985|共7页
作者
Kawasaki T.; Hosoda S.; Kim J.; Toyoda K.; Cho M.;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类等离子体物理学;
关键词
arcs (electric); astrophysical plasma; electrostatic discharge; solar cell arrays; spacecraft charging; surface potential; 400 mm; GEO plasma environment; Si cells; arc plasma propagation; charge neutralization; electrostatic discharge tests; geostationary-orbit pla;

机译：电弧（电）;天体等离子体;静电放电;太阳能电池阵列;航天器充电;表面电势;400 mm;GEO等离子体环境;Si电池;电弧等离子体传播;电荷中和;静电放电测试;对地静止轨道pla;

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1. Sustained arcing studies on the 110V solar arrays in the ion thruster plasma and geosynchronous orbit environments [J] . Ramasamy R, Cho MG, Toyoda K, Vacuum: Technology Applications & Ion Physics: The International Journal & Abstracting Service for Vacuum Science & Technology . 2004,第3a4期

机译：在离子推进器等离子体和地球同步轨道环境中对110V太阳电池阵列进行持续电弧放电研究
2. Degradation of High-Voltage Solar Array Due to Arcing in Plasma Environment [J] . Kazuhiro Toyoda, Teppei Okumura, Satoshi Hosoda, Journal of Spacecraft and Rockets . 2005,第5期

机译：等离子环境下电弧放电导致高压太阳能电池板性能下降
3. Power Reduction of Solar Arrays by Arcing Under Simulated Geosynchronous Orbit Environment [J] . Kazuhiro Toyoda, Toshiaki Matsumoto, Mengu Cho, Journal of Spacecraft and Rockets . 2004,第5期

机译：模拟地球同步轨道环境下电弧放电降低太阳能电池阵列的功率
4. Emission Spectral Analysis of Arc Plasma on Solar Array in GEO Environment [C] . Ose, T., Sanmaru, . 2006

机译：GEO环境中太阳阵列上电弧等离子体的发射光谱分析
5. Examination of charge transport in smart matrix light-harvesting arrays for use in molecular-based solar cells. [D] . Civic, Marissa R. 2016

机译：检查用于基于分子的太阳能电池的智能矩阵光收集阵列中的电荷传输。
6. Free energy landscape of siRNA-polycation complexation: Elucidating the effect of molecular geometry polymer flexibility and charge neutralization [O] . Gianvito Grasso, Marco Agostino Deriu, Viorica Patrulea, -1

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7. Measurement of Charge Absorption by Arc Plasma on Solar Array Surface in GEO Plasma Environment [O] . 松本敏明, 志方吉夫, 豊田和弘, 2003

机译：GEO等离子体环境中太阳阵列表面上电弧等离子体对电荷吸收的测量

Charge Neutralization via Arcing on a Large Solar Array in the GEO Plasma Environment

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