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Innovative tunnel FET architectures

2018 Joint International EUROSOI Workshop and International Conference on Ultimate Integration on Silicon (EUROSOI-ULIS) Pub Date : 2018-03-19 DOI:10.1109/ULIS.2018.8354725
C. Llorente, S. Martinie, S. Cristoloveanu, J. Colinge, C. Le Royer, J. Wan, G. Ghibaudo, M. Vinet
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引用次数: 3

Abstract

We propose three innovative SOI Tunnel FET architectures. They are evaluated and compared with a standard TFET structure using Sentaurus TCAD. The extension of the source (anode) at the bottom of the body generates vertical band-to-band tunneling with a very steep slope and higher ION than lateral tunneling, but only for gate lengths longer than 100 nm. Using a heavily doped boron thin layer at the bottom increases ION even for aggressive gate lengths. Implementation of a tip in the source provides performance similar to the reference TFET. TCAD simulation using SiGe instead of Si shows current drive increase when using the thin boron layer for very thin channels, even for shorter gate lengths.
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创新隧道场效应管架构
我们提出了三种创新的SOI隧道场效应管架构。使用Sentaurus TCAD对它们进行了评估,并与标准的TFET结构进行了比较。源(阳极)在体底部的延伸产生垂直的带对带隧道,具有非常陡峭的斜率和比横向隧道更高的离子,但仅适用于长度大于100 nm的栅极。在底部使用大量掺杂的硼薄层即使在极长的栅极长度下也能增加离子。在源代码中实现提示提供了类似于参考ttfet的性能。使用SiGe代替Si的TCAD模拟显示,当在非常薄的通道中使用薄硼层时,即使栅极长度较短,电流驱动也会增加。
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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2018 Joint International EUROSOI Workshop and International Conference on Ultimate Integration on Silicon (EUROSOI-ULIS)
2018 Joint International EUROSOI Workshop and International Conference on Ultimate Integration on Silicon (EUROSOI-ULIS)
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