Improved large optical cavity design for 10.6 mu m (Al)GaAs quantum cascade lasers

Scarpa G.; Ulbrich N.; Sigl A.; Bichler M.; Schuh D.; Amann MC. Abstreiter G.

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Improved large optical cavity design for 10.6 mu m (Al)GaAs quantum cascade lasers

机译：改进的用于10.6微米（Al）GaAs量子级联激光器的大光腔设计

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We have developed an improved waveguide design for 10.6 mum (Al)GaAs quantum cascade lasers based on a large optical cavity. With the optical confinement based on the free-carrier plasma effect we accurately evaluate the complex dielectric constant as a function of doping densities of the GaAs waveguide layers. Free-carrier absorption losses and confinement factors are simulated and compared with experimental results. An improved design was obtained by varying the doping profile of the large optical cavity resulting in a 30% reduced threshold current density of 3.4 kA cm(-2) at 77 K heatsink temperature. (C) 2002 Elsevier Science B.V. All rights reserved. [References: 10]

机译：我们已经为基于大光腔的10.6毫米（Al）GaAs量子级联激光器开发了一种改进的波导设计。利用基于自由载流子等离子体效应的光学限制，我们可以准确地将复数介电常数作为GaAs波导层掺杂密度的函数进行评估。模拟了自由载流子的吸收损耗和限制因子，并与实验结果进行了比较。通过改变大光腔的掺杂分布，在77 K散热器温度下导致3.4 kA cm（-2）的阈值电流密度降低了30％，从而获得了改进的设计。（C）2002 Elsevier Science B.V.保留所有权利。 [参考：10]

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《Physica, E. Low-dimensional systems & nanostructures》 |2002年第4期|共4页
作者
Scarpa G.; Ulbrich N.; Sigl A.; Bichler M.; Schuh D.; Amann MC. Abstreiter G.;
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正文语种 eng
中图分类物理学;
关键词
Quantum cascade laser; Intersubband; Infrared; Unipolar semiconductor-lasers; Wave-guides; Confinement; Performance;

机译：量子级联激光器;子带间;红外;单极半导体激光器;波导;约束;性能;

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专利

1. Improved large optical cavity design for 10.6 mu m (Al)GaAs quantum cascade lasers [J] . Scarpa G., Ulbrich N., Sigl A., Physica, E. Low-dimensional systems & nanostructures . 2002,第2a4期

机译：改进的用于10.6微米（Al）GaAs量子级联激光器的大光腔设计
2. Non-linear optical rectification at 10.6 mu m in compositionally asymmetrical GaAs/AlGaAs multi-quantum wells [J] . Rosencher E., Bois P. IEEE Transactions on Electron Devices . 1989,第11期

机译：成分不对称GaAs / AlGaAs多量子阱中10.6μm处的非线性光学整流
3. Laser diode modulation of 10.6 mu m radiation in GaAs/AlGaAs quantum wells [J] . Yang D.D., Boucaud P. Electronics Letters . 1990,第18期

机译：GaAs / AlGaAs量子阱中10.6μm辐射的激光二极管调制
4. Three-dimensional comprehensive self-consistent simulation of a room-temperature continuous-wave operation of GaAs-based 1.3-/spl mu/m quantum-dot (InGa)As/GaAs vertical-cavity surface-emitting lasers [C] . Sarzala R.P., Mendla P., Wasiak M., Transparent Optical Networks, 2003. Proceedings of 2003 5th International Conference on . 2003

机译：GaAs基1.3- / splμ/ m量子点（InGa）As / GaAs垂直腔面发射激光器室温连续波操作的三维综合自洽仿真
5. Mid-infrared quantum cascade lasers with novel active core and laser cavity designs. [D] . Liu, Peter Qiang. 2012

机译：具有新型有源纤芯和激光腔设计的中红外量子级联激光器。
6. Contactless Measurements of Carrier Concentrations in InGaAs Layers for Utilizing in InP-Based Quantum Cascade Lasers by Employing Optical Spectroscopy [O] . Marcin Kurka, Michał Rygała, Grzegorz Sęk, 2020

机译：通过采用光学光谱分程利用基于INP的量子级联激光器的InGaAs层的非接触式测量
7. Multi-step interrupted-growth MBE technology for GaAs/AlGaAs ($~$9.4 $mu$m) room temperature operating quantum-cascade lasers [O] . Kosiel K., Kubacka-Traczyk J., Sankowska I., 2012

机译：GaAs / AlGaAs（$ 〜$ 9.4 $ mu $ m）室温工作量子级联激光器的多步中断生长MBE技术
8. Photopumped Room-Temperature Edge- and Vertical-Cavity Operation of AlGaAs-GaAs-InGaAs Quantum-Well Heterostructure Lasers Utilizing Native Oxide Mirrors [R] . Ries, M. J., Richard, T. A., Maranowski, S. A., 1994

机译：利用天然氧化物反射镜的alGaas-Gaas-InGaas量子阱异质结构激光器的光电泵浦室温边缘和垂直腔体操作

Improved large optical cavity design for 10.6 mu m (Al)GaAs quantum cascade lasers

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