用于低功耗应用的铁电栅极材料TFET的设计

2021 First International Conference on Advances in Computing and Future Communication Technologies (ICACFCT) Pub Date : 2021-12-16 DOI:10.1109/icacfct53978.2021.9837374

Rituraj Kawale, Ankit Pachouri, Yogendra Pratap Singh, Lucky Agarwal

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引用次数: 2

摘要

tfet是现代新兴的结构，用于在亚纳米范围内扩展器件，以继续遵循摩尔定律。为了提高tfet的性能，引入了负电容的概念。此外，使用铁电材料作为栅氧化材料可以提高其性能。在本论文中，我们观察到由负电容效应引起的沟道表面电位放大可以得到fet所期望的特性。在FinFET器件上，tfet表现出对短通道效应(SCEs)更好的控制。随着氧化物长度的变化，铁电材料的意义在于使用tfet可以获得更好的性能，如高导通电流(Ion)，低DIBL和较小的亚阈值摆幅(SS)。仿真结果表明，以铁电材料作为栅极氧化物的tfet器件在低功耗应用中备受关注。

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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Design of TFET with Ferroelectric Gate Material for Low Power Applications

TFETs are modern emerging structures for scaling the devices at sub-nanometer regime to continue with Moore’s law. To upsurge the performance of TFETs, a negative capacitance concept has been introduced. Moreover, its performance can be enhanced by using Ferroelectric material as a gate oxide material. In the current paper, it has been observed that the channel surface potential amplification induced by the negative capacitance effect gives the desired characteristics of FETs. The TFETs exhibits better control of short channel effects (SCEs) over the FinFET device. The significance of the ferroelectric material with a variation of oxide length poses the use of TFETs to procure the better performance such as high on-current (Ion), lower DIBL, and smaller subthreshold swing (SS). The simulation was carried by SILVACO ATLAS, and it shows that TFETs device with ferroelectric material as a gate oxide draws attention for low power application.

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来源期刊

2021 First International Conference on Advances in Computing and Future Communication Technologies (ICACFCT)

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