Strained-Layer Quantum-Well Lasers

Adams A. R.

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Strained-Layer Quantum-Well Lasers

机译：应变层量子阱激光器

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This tutorial article explains the two important reasons for the introduction of strain into the active region of a quantum-well laser. First, it reduces the density of states at the top of the valence band, which allows population inversion to be obtained at a lower carrier density. Second, it distorts the 3-D symmetry of the crystal lattice and matches it more closely to the 1-D symmetry of the laser beam. Together these effects greatly enhance almost all characteristics of semiconductor lasers and make possible a wide range of applications. Combinations of compressive and tensile strain can also be used, for example, to produce nonabsorbing mirrors and polarization-insensitive semiconductor optical amplifiers.

机译：本教程文章解释了将应变引入量子阱激光器有源区的两个重要原因。首先，它降低了价带顶部的状态密度，从而允许以较低的载流子密度获得种群反转。其次，它扭曲了晶格的3D对称性，并使它与激光束的1D对称性更加接近。这些效果加在一起，极大地增强了半导体激光器的几乎所有特性，并使得广泛的应用成为可能。压缩应变和拉伸应变的组合也可以用于例如制造非吸收镜和对偏振不敏感的半导体光放大器。

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来源
《Selected Topics in Quantum Electronics, IEEE Journal of》 |2011年第5期|p.1364-1373|共10页
作者
Adams A. R.;
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作者单位

Physics Department, Institute for Advanced Technology, University of Surrey, Guildford, U.K.;

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原文格式 PDF
正文语种 eng
中图分类
关键词
Quantum well (QW); semiconductor lasers; strain;

机译：量子阱（QW）;半导体激光器;应变;

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专利

1. Spontaneous Radiative Efficiency and Gain Characteristics of Strained-Layer InGaAs;GaAs Quantum-Well Lasers [J] . Tsvid G., Kirch J., Mawst L.J., IEEE Journal of Quantum Electronics . 2008,第8期

机译：应变层InGaAs; GaAs量子阱激光器的自发辐射效率和增益特性
2. Failure Analysis of InGaAs/GaAs Strained-Layer Quantum-Well Lasers Using a Digital OBIC Monitor [J] . Tatsuya Takeshita, Mitsuru Sugo, Toru Sasaki, IEEE Transactions on Electron Devices . 2006,第2期

机译：使用数字OBIC监视器的InGaAs / GaAs应变层量子阱激光器的失效分析
3. Strained-layer InGaAs Quantum-well Lasers Emitting beyond 2 micro-meter [J] . Manabu Mitsuhara, Takao Watanabe, Yasuhiro Kondo NTT Technical Review . 2005,第8期

机译：发射超过2微米的应变层InGaAs量子阱激光器
4. Non-Markovian optical gain of strained-layer quantum-well lasers with many-body effects [C] . Doyeol Ahn Asian Science Seminar international workshop on physics and applications of semiconductor quantum structures . 2001

机译：带状层量子孔激光的非马太科光学增益，具有许多体效应
5. VISIBLE-SPECTRUM INDIUM-GALLIUM - PHOSPHIDE - ARSENIDE LASERS AND HIGH-PRESSURE MEASUREMENTS ON QUANTUM-WELL HETEROSTRUCTURE LASERS. [D] . KIRCHOEFER, STEVEN WILLIAM. 1982

机译：可见光谱铟镓-磷-砷化物激光和量子阱异质结构激光的高压测量。
6. Characterization of Gallium Indium Phosphide and Progress of Aluminum Gallium Indium Phosphide System Quantum-Well Laser Diode [O] . Hiroki Hamada 2017

机译：镓铟磷化物的表征及铝镓磷化物体系量子阱激光二极管的研究进展
7. Spontaneous Radiative Efficiency and Gain Characteristics of Strained-Layer InGaAs–GaAs Quantum-Well Lasers [O] . Gene Tsvid, Jeremy Kirch, Luke J. Mawst, 2008

机译：紧张层的自发辐射效率和增益特性Ingaas-GaAs量子孔激光器
8. Uniform Linear Arrays of Strained-Layer InGaAs-AlGaAs Quantum-Well Ridge-Waveguide Diode Lasers Fabricated by ECR-IBAE [R] . Woodhouse, J. D., Wang, C. A., Donnelly, J. P., 1994

机译：ECR-IBaE制备的应变层InGaas-alGaas量子阱脊波导二极管激光器的均匀线性阵列

Strained-Layer Quantum-Well Lasers

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