MEMBRANE BIAS EFFECTS ON PLASMA DRIVEN PERMEATION OF HYDROGEN THROUGH NIOBIUM MEMBRANE

机译：膜偏压对氢透过铌膜的氢驱动等离子体渗透的影响

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Niobium membrane wax immersed in hydrogen plasma in order to study its interaction with hydrogenions in the energy range from a few eV to 200 eV, controlled by changing the membrane bias. Degradation of plasma driven permeation (PDP) and enhancement of permeation driven by thermal molecules of cold gas (GDP) were observed when bias voltage was applied to the membrane exposed at plasma because of sputtering of non-metal impurity layer at upstream surface. Both dissolution of oxygen and increase of membrane temperature lead to decreasing of membrane bias effect due to rise of surface layer recovering rate.

机译：铌膜蜡浸入氢等离子体中以研究其与氢的相互作用，其能量范围为几eV至200 eV，并通过改变膜偏压来控制。当由于在上游表面非金属杂质层的溅射而向暴露于等离子体的膜施加偏压时，观察到等离子体驱动渗透（PDP）的降解和冷气体热分子（GDP）驱动的渗透的增强。氧气的溶解和膜温度的升高都由于表层回收率的提高而导致膜偏压效应的降低。

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来源
《NATO Advanced Research Workshop on Hydrogen Recycling at Plasma Facing Materials Sep 15-19, 1999, St. Petersburg, Russia》|1999年|p.167-175|共9页
会议地点 Petersburg(RU)
作者
Y. NAKAMURA; N. OHYABU; H. SUZUKI; V. ALIMOV; A. BUSNYUK; A. LIVSHITS;
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National Institute for Fusion Science, Oroshi, Toki 509-52, Japan;

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正文语种 eng
中图分类一般工业技术;
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MEMBRANE BIAS EFFECTS ON PLASMA DRIVEN PERMEATION OF HYDROGEN THROUGH NIOBIUM MEMBRANE

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