(111)取向量子阱中增强量子尺寸效应的物理学和应用

Quantum Wells for Optics and Optoelectronics Pub Date : 1900-01-01 DOI:10.1364/qwoe.1989.tuc4

T. Suyama, T. Hayakawa, T. Hijikata

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摘要

半导体超晶格和量子阱是一种重要的新型人造材料，可用于新型电子和光子器件。这些调制半导体结构在过去的十年中得到了广泛的研究;然而，它们几乎完全是在(100)取向衬底上制备的。分子束外延(MBE)的最新进展使得在(111)和(110)取向GaAs衬底上生长“器件质量”的AlGaAs层成为可能。1-3通过比较在(111)和(100)取向基底上生长的量子阱的几种性质，我们发现各种量子尺寸效应(qse)取决于量子化方向，即生长轴。本文综述了实验证实的取向相关量子结构，并介绍了其在量子激光器中的应用。

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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Physics and Applications of Enhanced Quantum Size Effects in (111)-Oriented Quantum Wells

Semiconductor superlattices and quantum wells (QWs) are very important as new man-made materials for novel electronic and photonic devices. These modulated semiconductor structures have been extensively investigated for the past decade; however, they have been prepared almost exclusively on (100)–oriented substrates. The recent progress in molecular beam epitaxy (MBE) has made it possible to grow "device-quality" AlGaAs layers on (111)- and (110)–oriented GaAs substrates.1-3 As a result of comparing several properties of QWs grown on both (111)- and (100)-oriented substrates, we have discovered that a variety of quantum size effects (QSEs) depend upon the quantization direction, that is, the growth axis. In this paper, the experimentally confirmed orientation-dependent QSEs are overviewed, and application to the QW laser is presented.

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Quantum Wells for Optics and Optoelectronics

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