高κ/ SiO2双分子层和SiO2栅极电介质中TDDB电压加速的温度依赖性

2012 International Electron Devices Meeting Pub Date : 2012-12-01 DOI:10.1109/IEDM.2012.6479123

E. Wu, J. Suñé, C. LaRow, R. Dufresne

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引用次数: 11

摘要

在这项工作中，提供了高κ/SiO2双层电介质的击穿时间幂律电压加速的实验证据。在fet反演中，高κ/SiO2双分子层的电压加速幂律指数与温度的依赖关系与SiO2介电材料相当。此外，还报道了渐进式双相模式下电压加速的温度依赖性。另一方面，我们提出了一个热辅助氢释放反应模型，该模型可以解释三个关键的实验观察:(1)电压加速指数的温度依赖性，(2)TDDB的非arrhenius温度依赖性，以及(3)高温下的大活化能。

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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Temperature dependence of TDDB voltage acceleration in high-κ/ SiO2 bilayers and SiO2 gate dielectrics

In this work, experimental evidence of time-to-breakdown power-law voltage acceleration for high-κ/SiO2 bilayer dielectrics is presented. The temperature dependence of voltage acceleration power-law exponents for high-κ/SiO2 bilayer stressed in pFET inversion is found to be comparable to those of SiO2 dielectrics. In addition, the temperature-dependence of voltage acceleration for progressive BD mode is reported. On the other hand, we present a thermally assisted hydrogen release-reaction model which can explain three key experimental observations: (1) the temperature dependence of voltage acceleration exponents, (2) the non-Arrhenius temperature dependence of TDDB, and (3) the large activation energy at high temperatures.

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2012 International Electron Devices Meeting

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