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Parasitic source/drain resistance reduction in n-channel SOI MuGFETs with 15nm wide fins

2005 IEEE International SOI Conference Proceedings Pub Date : 2005-12-27 DOI:10.1109/SOI.2005.1563597
A. Dixit, K. Anil, N. Collaert, R. Rooyackers, F. Leys, I. Ferain, A. De Keersgieter, T. Hoffmann, R. Loo, M. Goodwin, P. Zimmerman, M. Caymax, K. De Meyer, M. Jurczak, S. Biesemans
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引用次数: 4

Abstract

We report on a set of process improvements leading to parasitic S/D resistance reduction in n-channel MuGFETs with 60 nm tall and 15 nm wide fins. We experimentally determine the contributions to the parasitic S/D resistance arising from the specific regions of the S/D geometry. A 50% reduction in the S/D resistance (from 1235 to 600 /spl Omega/-/spl mu/m) is achieved by introducing various scaled processes, including EOT reduction, elevated S/D, undoped fins and removal of halos, reduction in S/D spacer width, and smaller gate lengths. The combination of these process enhancements leads to a 2/spl times/ increase in I/sub DSAT/, measured at constant I/sub OFF/ (=1nA//spl mu/m) and V/sub DD/=1.3V.
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15nm宽翅片n沟道SOI mugfet寄生源/漏阻降低
我们报告了一组工艺改进,导致60 nm高和15 nm宽鳍的n沟道mugfet的寄生S/D电阻降低。我们通过实验确定了S/D几何形状的特定区域对寄生S/D电阻的贡献。S/D电阻降低50%(从1235到600 /spl ω /-/spl mu/m)是通过引入各种缩放过程实现的,包括减少EOT,提高S/D,不掺杂鳍和去除光晕,减少S/D间隔宽度和更小的栅极长度。这些工艺增强的组合导致I/sub DSAT/增加2/spl倍,在恒定的I/sub OFF/ (=1nA//spl mu/m)和V/sub DD/=1.3V下测量。
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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2005 IEEE International SOI Conference Proceedings
2005 IEEE International SOI Conference Proceedings
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