Source/Drain Trimming Process to Improve Gate-All-Around Nanosheet Transistors Switching Performance and Enable More Stacks of Nanosheets

源极/漏极修整工艺可提高环栅纳米片晶体管的开关性能并实现更多纳米片堆叠

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作者:Chen,Kun,Yang,Jingwen,Liu,Tao,Wang,Dawei,Xu,Min,Wu,Chunlei,Wang,Chen,Xu,Saisheng,Zhang,David Wei,Liu,Wenchao
期刊:Micromachines影响因子:3.000
时间:2022起止号:2022 Jul 8;13(7)
doi:10.3390/mi13071080

Abstract

A new S/D trimming process was proposed to significantly reduce the parasitic RC of gate-all-around (GAA) nanosheet transistors (NS-FETs) while retaining the channel stress from epitaxy S/D stressors at most. With optimized S/D trimming, the 7-stage ring oscillator (RO) gained up to 27.8% improvement of delay with the same power consumption, for a 3-layer stacked GAA NS-FETs. Furthermore, the proposed S/D trimming technology could enable more than 4-layer vertical stacking of nanosheets for GAA technology extension beyond 3 nm CMOS technology.

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