A Compact Source of Terahertz Radiation Based on an Open Corrugated Waveguide

Advances in Condensed-Matter and Materials Physics - Rudimentary Research to Topical Technology Pub Date : 2019-10-22 DOI:10.5772/intechopen.89692

L. Shchurova, V. Namiot

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Abstract

We show that it is possible to produce terahertz wave generation in an open waveguide, which includes a multilayer dielectric plate. The plate consists of two dielectric layers with a corrugated interface. Near the interface, there is a thin semiconductor layer (quantum well), which is an electron-conducting channel. The generation and amplification of terahertz waves occur due to the efficient energy exchange between electrons, drifting in the quantum well, and the electromagnetic wave of the waveguide. We calculate the inhomogeneous electric fields induced near the corrugated dielectric interface by electric field of fundamental mode in the open waveguide. We formulate hydrodynamic equations and obtain analytical solutions for density waves of electrons interacting with the inhomogeneous electric field of the corrugation. According to numerical estimates, for a structure with a plate of quartz and sapphire layers and silicon-conducting channel, it is possible to generate electromagnetic waves with an output power of 25 mW at a frequency of 1 THz.

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基于开放式波纹波导的紧凑太赫兹辐射源

我们证明了在开放波导中产生太赫兹波是可能的，其中包括多层介电板。该板由两个具有波纹界面的介电层组成。在界面附近，有一个薄的半导体层(量子阱)，这是一个电子传导通道。太赫兹波的产生和放大是由于量子阱中漂移的电子和波导的电磁波之间的有效能量交换而发生的。本文计算了波导中基模电场在波纹介质界面附近产生的非均匀电场。我们建立了流体力学方程，并得到了电子密度波与波纹状非均匀电场相互作用的解析解。根据数值估计，对于石英和蓝宝石层板和硅导电通道的结构，可以在1太赫兹频率下产生输出功率为25兆瓦的电磁波。

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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Advances in Condensed-Matter and Materials Physics - Rudimentary Research to Topical Technology

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