Radiation induced conduction and space charge dynamics in polyimide revealed by off-line and online PEA method

Weiwang Wang, Zhiqiang Guo, H. Miyake, Y. Tanaka, Shengtao Li
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Abstract

This paper aims at the measurement of the time dependence of the internal space charge and analysis of radiation induced conduction (RIC) in polyimide caused by electron beam irradiation. Both the normal PEA method and an “on-line” PEA system were employed to detect the space charge profiles after and during the electron irradiation. In view of that, a small size PEA device with a ring high voltage electrode was used for the “on-line” measurement. In addition, the electric conduction was discussed by the RIC theory. Negative charge accumulations were introduced by the irradiated electrons, which increase with the increase of electron energy and density. The behaviors of RIC depend on electron energy, indicating an enhancement with high electron energy. These phenomena are closely related to the charge deposition and electron-hole pairs. High energy and density of the electron beams introduced large amounts of negative charge accumulations. Meanwhile, they contributed to the high level of RIC. Consequently, the space charge would maintain the dynamic equilibrium in polyimide film.
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用离线和在线PEA方法研究聚酰亚胺的辐射诱导传导和空间电荷动力学
本文旨在测量聚酰亚胺内部空间电荷的时间依赖性,并分析电子束辐照引起聚酰亚胺的辐射感应传导(RIC)。采用常规PEA方法和“在线”PEA系统分别检测了电子辐照后和辐照过程中的空间电荷分布。鉴于此,我们采用了一个小尺寸的环形高压电极PEA装置进行“在线”测量。此外,还用RIC理论讨论了导电问题。随着电子能量和电子密度的增加,负电荷积累也随之增加。RIC的行为依赖于电子能量,表明高电子能量增强。这些现象与电荷沉积和电子-空穴对密切相关。电子束的高能量和高密度引入了大量的负电荷积累。与此同时,他们也为高水平的RIC做出了贡献。因此,空间电荷在聚酰亚胺薄膜中保持动态平衡。
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