Graphene-Channel-Transistor Terahertz Amplifier

机译：石墨烯通道晶体管太赫兹放大器

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摘要

The generation and amplification of terahertz (THz) electromagnetic waves by plasmonic instabilities in conventional two-dimensional (2D) electron systems (2DESs) have been actively investigated since 1980 [1]. However, after about forty years, we are still a long way from the realization of efficient emitters and amplifiers [2]. The rise of graphene and its extremely strong light-plasmon coupling and superior carrier transport properties make this work worth to be revisited [3]. We investigate dc current driven plasmonic instabilities in high mobility graphene-channel field-effect transistors (GFETs) working for tunable THz amplifier at room temperature (RT).

机译：自1980年以来，已经积极地研究了传统二维（2D）电子系统（2DES）中的等离子体不稳定引起的太赫兹（THz）电磁波的产生和放大[1]。然而，大约40年之后，距离高效发射器和放大器的实现还有很长的路要走[2]。石墨烯的兴起及其极强的光-等离子体耦合和优异的载流子传输性能使这项工作值得重新探讨[3]。我们研究在室温（RT）下为可调THz放大器工作的高迁移率石墨烯沟道场效应晶体管（GFET）中的直流电流驱动的等离子体不稳定。

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来源
《2018 76th Device Research Conference》|2018年|1-2|共2页
会议地点 Santa Barbara(US)
作者
Stephane Boubanga-Tombet; Deepika Yadav; Wojciech Knap; Vyacheslav V. Popov; Taiichi Otsuji;
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作者单位

Research Institute of Electrical Communication, Tohoku University, Sendai, 980-8597, Japan;

Research Institute of Electrical Communication, Tohoku University, Sendai, 980-8597, Japan;

Laboratory Charles Coulomb, University of Montpellier and CNRS, Place Eugene Bataillon, Montpellier, F-34095, France;

RAS, Kotelnikov Institute of Radio Engineering and Electronics (Saratov Branch), Saratov, 410019, Russia;

Research Institute of Electrical Communication, Tohoku University, Sendai, 980-8597, Japan;

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会议组织
原文格式 PDF
正文语种 eng
中图分类
关键词
Plasmons; Graphene; Logic gates; Frequency measurement; Cavity resonators; Resonant frequency; Electron mobility;

机译：等离子;石墨烯;逻辑门;频率测量;腔谐振器;谐振频率;电子迁移率;;

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专利

1. Wideband Output Brewster Window for Terahertz TWT Amplifiers Application [J] . Zhu Juan-Feng, Du Chao-Hai, Bao Lu-Yao, IEEE microwave and wireless components letters . 2021,第2期

机译：用于太赫兹TWT放大器应用的宽带输出Brewster窗口
2. Six-Billion-Fold Amplification via a Two-Stage Terahertz Parametric Amplifier [J] . Terahertz Science and Technology, IEEE Transactions on . 2020,第2期

机译：通过两级太赫兹参量放大器进行六十亿倍的放大
3. High repetition rate and high power picosecond terahertz parametric amplifier with a KTiOPO_4 crystal [J] . Gang Zhao, Yuting Yang, Yue Huang, Applied Physics Letters . 2020,第13期

机译：具有Ktiopo_4晶体的高重复率和高功率PicoSecond Terhertz参数放大器
4. Graphene-Channel-Transistor Terahertz Amplifier [C] . Stephane Boubanga-Tombet, Deepika Yadav, Wojciech Knap, Device Research Conference . 2018

机译：石墨烯频道晶体管太赫兹放大器
5. High Power/Gain Power Amplifier Design at High Mm-Wave and Terahertz Frequencies: Embedded Power Amplification [D] . Bameri, Hadi. 2021

机译：高电源/增益功率放大器设计高MM波和太赫兹频率：嵌入式功率放大
6. Differential CMOS Sub-Terahertz Detector with Subthreshold Amplifier [O] . Jong-Ryul Yang, Seong-Tae Han, Donghyun Baek 2017

机译：带有亚阈值放大器的差分CMOS亚太赫兹检测器
7. Modeling and improving the output power of terahertz master-oscillator power-amplifier quantum cascade lasers [O] . Haiqing Zhu, Huan Zhu, Chenren Yu, 2020

机译：太赫兹大师振荡器功率放大器量子级联激光器的建模和提高输出功率

Graphene-Channel-Transistor Terahertz Amplifier

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