Line edge roughness and spacing effect on low-k TDDB characteristics

2008 IEEE International Reliability Physics Symposium Pub Date : 2008-07-09 DOI:10.1109/RELPHY.2008.4558874

F. Chen, J. Lloyd, K. Chanda, R. Achanta, O. Bravo, A. Strong, P. McLaughlin, M. Shinosky, S. Sankaran, E. Gebreselasie, A. Stamper, Z. He

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引用次数: 51

Abstract

The study of low-k TDDB line space scaling is important for assuring robust reliability for new technologies. Although spacing effects due to line edge roughness (LER) on low-k TDDB lifetime were reported previously (Chen et al., 2007; Lloyd et al., 2007; Kim et al., 2007), there has been a lack of an analytical model with which to link line edge roughness to experimental TDDB data in a simple quantitative format. This work reports a thorough investigation into the low-k SiCOH line LER effect on low-k TDDB covering both experimental results and finite element modeling (FEM) simulations. The maximum electric field intensity as a result of sidewall LER bump was found to depend on the bump curvature. The decrease of low-k line spacing that resulted in a shorter TDDB lifetime even under the same applied electric field was then carefully analyzed. A simple analytical model of the effect of line edge roughness on TDDB failure time reduction is presented. This model was verified by experimental results. Additionally, a method to electrically quantify an overall line edge roughness is introduced.

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线边缘粗糙度和间距对低k TDDB特性的影响

低k TDDB线空间标度的研究对于保证新技术的鲁棒可靠性具有重要意义。虽然之前有报道过线边缘粗糙度(LER)对低k TDDB寿命的间距影响(Chen et al.， 2007;Lloyd等人，2007;Kim et al.， 2007)，一直缺乏一种分析模型，用简单的定量格式将线边缘粗糙度与实验TDDB数据联系起来。本文对低钾SiCOH线LER对低钾TDDB的影响进行了深入的研究，包括实验结果和有限元模拟。发现由侧壁LER凹凸引起的最大电场强度与凹凸曲率有关。然后仔细分析了在相同外加电场下，低k线间距的减小导致TDDB寿命缩短的原因。提出了线边粗糙度对TDDB失效时间缩短影响的简单解析模型。实验结果验证了该模型的正确性。此外，还介绍了一种电量化整体线边缘粗糙度的方法。

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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2008 IEEE International Reliability Physics Symposium

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