Reliability concerns in High-K/Metal gate technologies

2010 IEEE International Conference on Integrated Circuit Design and Technology Pub Date : 2010-06-02 DOI:10.1109/ICICDT.2010.5510287
X. Garros, M. Cassé, G. Reimbold, F. Martin, L. Brunet, F. Andrieu, F. Boulanger
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引用次数: 4

Abstract

The paper presents an overview of the Bias Temperature Instabilities (BTI) reliability in High-k/Metal gate technologies. We show that mobility performance and NBTI reliability are strongly correlated and that they are affected by the diffusion of nitrogen species N at the Si interface. PBTI, more sensitive to bulk oxide traps, is strongly reduced in very thin dielectric films. Reducing the metal gate thickness favors the reduction of mobility degradations and NBTI, but, also strongly enhances PBTI, due to a complex set of reactions in the gate oxide. Trade off must be found to obtain a great trade off between device performance and reliability requirements.
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高k /金属栅极技术的可靠性问题
本文综述了高k/Metal栅极技术中偏置温度不稳定性(BTI)的可靠性。我们发现迁移性能和NBTI可靠性是密切相关的,并且它们受到氮种在Si界面上扩散的影响。PBTI对大块氧化物陷阱更敏感,在非常薄的介电薄膜中被强烈还原。减小金属栅极厚度有利于降低迁移率退化和NBTI,但由于栅极氧化物中的一系列复杂反应,也强烈增强了PBTI。必须在设备性能和可靠性要求之间找到权衡。
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2010 IEEE International Conference on Integrated Circuit Design and Technology
2010 IEEE International Conference on Integrated Circuit Design and Technology
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