Negative capacitance enables FinFET and FDSOI scaling to 2 nm node

2017 IEEE International Electron Devices Meeting (IEDM) Pub Date : 2017-12-01 DOI:10.1109/IEDM.2017.8268443

V. Hu, P. Chiu, A. Sachid, C. Hu

引用次数: 19

Abstract

The scaling potential of negative capacitance FinFET and FDSOI (NC-FinFET and NC-FDSOI) are studied for technology nodes down to 2nm. According to ITRS 2.0, FinFET scaling ends at 6/5nm node due to the scaling limits of fin width (6 nm Wfm) and FDSOI scaling ends at 11/10 nm due to scaling limit of the channel thickness (3 nm Tch). We present TCAD simulation evidence that using these Wfin and Tch, and negative capacitance enables FinFET and FDSOI scaling to 2 nm node. NC-FinFET and NC-FDSOI at 2 nm node show Ioff < 100nA/μm and 10%∼29% higher Ion compared with 2nm FinFET(97μA/μm Ioff) and FDSOI(46μA/μm Ioff). NC-FDSOI exhibits similarly strong back-gate bias effects on Ioff and Ion compared with FDSOI.

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负电容使FinFET和FDSOI可以扩展到2nm节点

研究了负电容FinFET和FDSOI (NC-FinFET和NC-FDSOI)在2nm以下的技术节点上的缩放电位。根据ITRS 2.0，由于翅片宽度的缩放限制(6 nm Wfm)， FinFET的缩放结束在6/5nm节点，而FDSOI的缩放结束在11/10 nm节点，由于通道厚度的缩放限制(3 nm Tch)。我们提供的TCAD仿真证据表明，使用这些Wfin和Tch以及负电容可以使FinFET和FDSOI缩放到2nm节点。NC-FinFET和NC-FDSOI在2nm节点的off值< 100nA/μm，比2nm的FinFET(97μA/μm off)和FDSOI(46μA/μm off)高10% ~ 29%。与FDSOI相比，NC-FDSOI对Ioff和Ion表现出类似的强后门偏置效应。

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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来源期刊

2017 IEEE International Electron Devices Meeting (IEDM)

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