Enhancing the performance of Ga2O3 FinFETs through double fin channels and buried oxide

IF 2.7 Q2 PHYSICS, CONDENSED MATTER

Micro and Nanostructures Pub Date : 2024-11-01 DOI:10.1016/j.micrna.2024.208014

Priyanshi Goyal, Harsupreet Kaur

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引用次数: 0

Abstract

In this study, double fin channels and buried oxide has been implemented on Ga₂O₃ FinFET. Exhaustive simulations have been performed to study the performance of the proposed device and its comparison has been drawn with the device with only double fin channels without buried oxide, and the conventional FinFET. Various device characteristics such as output and transfer characteristics etc., have been studied and several figure of merits (FoMs) such as transconductance, parasitic capacitances, gain bandwidth product, intrinsic delay etc., have also been obtained. Further, the inverter has been designed using all the devices under consideration. It has been demonstrated that the inverter using the proposed device exhibits excellent characteristics in terms of significant improvement in key metrics such as noise margin, transient response etc., as compared to the inverter using conventional devices. The current study also lays the groundwork for designing various high-performance circuits for ultra-high frequency applications.

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通过双鳍片沟道和埋入氧化物提高 Ga2O3 FinFET 的性能

本研究在 Ga2O3 FinFET 上实现了双鳍片沟道和埋入氧化物。研究人员进行了详尽的仿真，研究了所提器件的性能，并将其与仅有双鳍片沟道而没有埋入氧化物的器件和传统的 FinFET 进行了比较。此外，还研究了各种器件特性，如输出和传输特性等，并获得了一些优点（FoMs），如跨导、寄生电容、增益带宽乘积、本征延迟等。此外，逆变器的设计采用了所有考虑的器件。结果表明，与使用传统器件的逆变器相比，使用拟议器件的逆变器在噪声裕度、瞬态响应等关键指标上都有显著改善，表现出卓越的特性。目前的研究还为设计超高频应用的各种高性能电路奠定了基础。

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

Micro and Nanostructures

CiteScore

6.50

自引率

0.00%

发文量