高性能双栅硅纳米线晶体管

2013 International Conference on Emerging Trends in VLSI, Embedded System, Nano Electronics and Telecommunication System (ICEVENT) Pub Date : 2013-04-11 DOI:10.1109/ICEVENT.2013.6496585

M. Sagana Gandi, M. Karthigai Pandian, N. Balamurugan

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引用次数: 0

摘要

本文对双栅硅纳米线晶体管的建模进行了研究。为了获得可接受的短通道效应，讨论了纳米线晶体管的缩放到10nm及以下，并研究了在模拟阈值电压时考虑的超薄硅器件引起的量子力学效应。同样，分析了不同掺杂密度、沟道长度、沟道厚度和氧化层厚度对阈值电压的影响。本文还讨论了双栅MOSFET沿通道的反转电荷和电势。所分析的这些方法是基于Schrödinger的解析解和在硅沟道中解出的泊松方程。比较了各种方法得到的仿真结果，分析了DG mosfet的性能。

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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High performance double gate silicon nanowire transistors

This paper deals with the study of modelling double gate silicon nanowire transistors. The scaling of nanowire transistors to 10nm and below is discussed for acceptable short-channel effects and the quantum mechanical effects caused by ultrathin silicon devices considered in modelling the threshold voltage is studied. Similarly, the variation of threshold voltage with different doping density, channel length, channel thickness and oxide thickness of DG MOSFET are analysed. The inversion charge and electrical potential along the channel of double gate MOSFET are also discussed in this paper. These approaches analysed are based upon the analytical solutions of Schrödinger and Poisson equations solved in the silicon channel. The simulation results obtained from various methodologies are compared to analyze the performance of the DG MOSFETs.

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2013 International Conference on Emerging Trends in VLSI, Embedded System, Nano Electronics and Telecommunication System (ICEVENT)

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