Electronic aging and related electron interactions in thin-film dielectrics

IEEE Transactions on Electrical Insulation Pub Date : 1993-10-01 DOI:10.1109/14.237742

L. Sanche

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引用次数: 75

Abstract

The author points out that hot electrons generated in dielectrics subjected to high electrical field strengths can produce highly reactive chemical species which contribute to the aging process. The study of the interaction of such low energy (0 to 15 eV) electrons near the surface of dielectrics in experiments combining cryogenic thin film deposition and high-resolution low-energy electron-beam techniques is discussed. Examples of the results obtained with thin film atomic and molecular solids are used to illustrate the basic mechanisms which control the electron-dielectric interactions and provide a description of the basic degradation processes involved during electronic aging. It is shown that elastic and quasi-elastic scattering of hot electrons in dielectrics can be described in terms of band structure parameters, whereas inelastic scattering is often governed by the formation of transient anions. These anions can decay by stabilization, by producing vibrationally and electronically excited molecules, or by dissociating into a stable anion and a neutral radical. These latter species usually initiate other reactions with nearby molecules, causing further chemical damage. >

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薄膜介质中的电子老化和相关的电子相互作用

作者指出，电介质在高电场强度作用下产生的热电子会产生高活性的化学物质，从而促进电介质的老化过程。结合低温薄膜沉积和高分辨率低能电子束技术，讨论了介电体表面附近低能(0 ~ 15 eV)电子相互作用的实验研究。用薄膜原子和分子固体得到的结果的例子来说明控制电子-介电相互作用的基本机制，并提供了电子老化过程中涉及的基本降解过程的描述。结果表明，热电子在介质中的弹性和准弹性散射可以用能带结构参数来描述，而非弹性散射通常是由瞬态阴离子的形成决定的。这些阴离子可以通过稳定、产生振动和电子激发的分子或解离成稳定的阴离子和中性自由基而衰变。这些后一种物质通常会与附近的分子引发其他反应，造成进一步的化学损害。>

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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IEEE Transactions on Electrical Insulation

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