Plasma wave electronics: terahertz detectors and sources using two dimensional electronic fluid in high electron mobility transistors

1997 Advanced Workshop on Frontiers in Electronics, WOFE '97 Proceedings Pub Date : 1997-01-06 DOI:10.1109/WOFE.1997.621164

M. Dyakonov, M. Shur

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引用次数: 1

Abstract

We discuss applications of plasma waves in high electron mobility transistors for detectors and sources operating in millimeter and submillimeter range. A short channel high electron mobility transistor (HEMT) has a resonance response to electromagnetic radiation at the plasma oscillation frequencies of the two dimensional electrons in the device. The devices, which use this resonance response should operate at much higher frequencies than conventional, transit-time limited devices since the plasma waves propagate much faster than electrons. The responsivities of such devices may greatly exceed the responsivities of Schottky diodes currently used as detectors and mixers in the terahertz range. A long channel HEMT has a nonresonant response to electromagnetic radiation and can be used as a broad band detector for frequencies up to several tens of terahertz. Recently, a prototype nonresonant detector (operating in the microwave range) was fabricated using an AlGaAs/GaAs 0.15 micron gate HEMT. The measured dependencies of the detector responsivity on the gate bias and frequency are in good agreement with our theory.

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等离子体波电子学:在高电子迁移率晶体管中使用二维电子流体的太赫兹探测器和源

我们讨论了等离子体波在高电子迁移率晶体管中的应用，用于毫米波和亚毫米波范围内的探测器和源。短通道高电子迁移率晶体管(HEMT)在器件中二维电子的等离子体振荡频率下对电磁辐射具有共振响应。由于等离子体波的传播速度比电子快得多，使用这种共振响应的设备应该比传统的传输时间有限的设备工作在更高的频率上。这种器件的响应率可能大大超过目前用作太赫兹范围内检测器和混频器的肖特基二极管的响应率。长通道HEMT对电磁辐射具有非共振响应，可以用作频率高达几十太赫兹的宽带探测器。最近，使用AlGaAs/GaAs 0.15微米栅极HEMT制作了一个原型非谐振探测器(工作在微波范围内)。测量到的探测器响应度对栅极偏置和频率的依赖关系与我们的理论很好地吻合。

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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1997 Advanced Workshop on Frontiers in Electronics, WOFE '97 Proceedings

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