Mobility and strain effects for <100> and <110> oriented silicon and SiGe transistor channels

2012 13th International Conference on Ultimate Integration on Silicon (ULIS) Pub Date : 2012-03-06 DOI:10.1109/ULIS.2012.6193343
S. Flachowsky, T. Herrmann, J. Hontschel, R. Illgen, S. Ong, M. Wiatr, T. Baldauf, W. Klix, R. Stenzel
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引用次数: 2

Abstract

The impact of compressive and tensile stress on CMOS performance is studied for <;100>; and <;110>; oriented silicon and SiGe channels. The <;110>; channel direction is found to be more stress sensitive whereas the <;100>; oriented transistor has a higher initial hole mobility. These results recommend to use the <;110>; channel orientation for high performance application due to the high drive current gain and <;100>; channel orientation for low power applications where no stress elements are included to ease the overall process complexity and to decrease costs.
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定向硅和SiGe晶体管通道的迁移率和应变效应
研究了压缩应力和拉伸应力对CMOS性能的影响;和;取向硅和SiGe通道。的;通道方向对应力更敏感,而通道方向对应力更敏感。定向晶体管具有较高的初始空穴迁移率。这些结果建议使用;通道定向,高性能应用,由于高驱动电流增益和;通道定向低功耗应用,其中不包括应力元件,以减轻整体工艺的复杂性,并降低成本。
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2012 13th International Conference on Ultimate Integration on Silicon (ULIS)
2012 13th International Conference on Ultimate Integration on Silicon (ULIS)
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