Differentiated Performance and Reliability Enabled by Multi-Work Function Solution in RMG Silicon and SiGe MOSFETs

R. Bao, R. Southwick, H. Zhou, C. Lee, B. Linder, T. Ando, D. Guo, H. Jagannathan, V. Narayanan
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引用次数: 3

Abstract

We report for the first time that replacement metal gate (RMG) work function metal (WFM) modulates the interface defects in Silicon and SiGe MOSFETs. Changing the effective work function (eWF) towards nFET band edge provides lower interface defects and higher mobility than eWF near the pFET band edge for both Si and SiGe substrates. Reducing the electric field across the dielectric (via eWF) improves bias temperature instability (BTI) for both n & pMOSFETs beyond expectation. Breakdown voltage increases and gate leakage decreases with increasing eWF for both n & pMOSFETs. Therefore, multi-Vt MOSFETs by RMG metal gate exhibit differentiated reliability as well as differentiated performance for both Si and SiGe channel materials.
RMG硅和SiGe mosfet的多工作功能解决方案实现的差异化性能和可靠性
本文首次报道了替代金属栅极(RMG)功功能金属(WFM)调制硅和SiGe mosfet的界面缺陷。对于Si和SiGe衬底,将有效功函数(eWF)改变到fet带边缘可以提供更低的界面缺陷和更高的迁移率,而不是靠近fet带边缘的eWF。减小电介质上的电场(通过eWF)可以改善n & pmosfet的偏置温度不稳定性(BTI),超出预期。无论是n场效应管还是pmosfet,击穿电压都随着eWF的增加而增加,栅极泄漏也随着eWF的增加而减少。因此,RMG金属栅极的多vt mosfet在Si和SiGe沟道材料中表现出不同的可靠性和不同的性能。
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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