锆离子注入蓝宝石电子束下的充电效应

IEEE 1997 Annual Report Conference on Electrical Insulation and Dielectric Phenomena Pub Date : 1997-10-19 DOI:10.1109/CEIDP.1997.634568

A. Berroug, J. Bigarré, S. Fayeulle, D. Tréheux

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引用次数: 10

摘要

在高能电子束(小于10kv)轰击介质材料时，被困在介质中的电子产生一个高的负电场，增加了介质的表面电位和二次电子发射。因此，为了了解绝缘子中空间电荷的形成，有必要对这些电荷效应进行表征，这些电荷效应可以改变注入条件(一次能量和光斑大小)和俘获能力。在能量为30 kV的扫描电镜下，对注入锆离子的蓝宝石进行了聚焦电子注入。在电子注入过程中，通过记录吸收电流来跟踪电荷的捕获。注入后，通过观察在低电位下产生的镜像“像”来测量捕获电荷的数量，并将其与“像”电荷的数量进行比较。当材料中捕获的电子数量增加时，捕获速率迅速降低。这种减少与已经被困在材料中的电子所产生的电场有关。

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Charging effects under electron beam injection on sapphire implanted with zirconium ions

During bombardment of a dielectric material with a high energy electron beam (few 10 kV), the electrons trapped in the material induce a high negative electric field which increases the surface potential and the secondary electron emission. So, in order to understand the space charge formation in insulators, it is necessary to characterize these charging effects which can modify the injection conditions (primary energy and spot size) and the trapping ability. Focused electron injection on sapphire implanted with zirconium ions was achieved in a SEM with an energy of 30 kV. The trapping of charges was followed during the electron injection by recording the absorbed current. After injection, the quantity of trapped charges was measured by observing the mirror "image" created at low potential and compared to the quantity of "image" charges. The trapping rate decreases rapidly when the quantity of electrons trapped in the material increases. This decreasing is related to the electric field due to the electrons already trapped in the material.

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IEEE 1997 Annual Report Conference on Electrical Insulation and Dielectric Phenomena

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