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Temperature Dependences of Metal-Clad Subwavelength Semiconductor Lasers (MCSELs): Geometric Invariance and the Spontaneous Emission Factor

机译：金属包覆的亚波长半导体激光器（MCSEL）的温度依赖性：几何不变性和自发发射因子

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摘要

We perform two analyses on temperature effects in Metal-Clad Subwavelength Semiconductor Lasers (MCSELs). Firstly, we analyze the temperature dependence of the threshold gain in the infinite waveguide approximation. We show that the dielectric layer of the semiconductor-dielectric-metal composite waveguide (CWG) becomes increasingly important as temperature increases. However, we further show that the optimal geometry of the CWG is nearly invariant with the temperature. Secondly, we relax the infinite waveguide assumption with the fully 3D finite element method, and analyze the temperature dependence of the spontaneous emission factor, β. We identify a cavity geometry that mitigates detuning between the dominant cavity mode and emission spectra. Ignoring coupling to freespace modes, we explain that the modified cavity may lead to a MCSEL with large β (～0.5) for all temperatures.

机译：我们对覆金属亚波长半导体激光器（MCSEL）中的温度效应进行了两项分析。首先，我们分析了无限波导近似中阈值增益的温度依赖性。我们表明，随着温度的升高，半导体-电介质-金属复合波导（CWG）的电介质层变得越来越重要。但是，我们进一步表明，CWG的最佳几何形状几乎随温度不变。其次，我们使用完全3D有限元方法放宽了无限波导假设，并分析了自发发射因子β的温度依赖性。我们确定了一个空腔几何形状，该几何形状可减轻主导空腔模式和发射光谱之间的失谐。忽略与自由空间模式的耦合，我们解释说，在所有温度下，改进的腔可能导致MCSEL的β（〜0.5）大。

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来源
《Physics and simulation of optoelectronic devices XXII》|2014年|89800X.1-89800X.10|共10页
会议地点 San Francisco CA(US)
作者
Joseph S. T. Smalley; Qing Gu; Matthew Puckett; Yeshaiahu Fainman;
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作者单位

Dept. of Electrical Computer Engineering, University of California, San Diego, 9500 Gilman La Jolla, CA, USA 92093-5003;

Dept. of Electrical Computer Engineering, University of California, San Diego, 9500 Gilman La Jolla, CA, USA 92093-5003;

Dept. of Electrical Computer Engineering, University of California, San Diego, 9500 Gilman La Jolla, CA, USA 92093-5003;

Dept. of Electrical Computer Engineering, University of California, San Diego, 9500 Gilman La Jolla, CA, USA 92093-5003;

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原文格式 PDF
正文语种 eng
中图分类
关键词
Composite waveguides; InGaAsP; metallic lasers; nanolasers; nanophotonics; nanoscale devices; semiconductor lasers; spontaneous emission; temperature dependence;

机译：复合波导InGaAsP；金属激光器；纳米激光;纳米光子学纳米器件；半导体激光器；自发发射温度依赖性;

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专利

1. Technique to calculate geometric spontaneous emission factor from amplified spontaneous emission spectrum of FP semiconductor laser [J] . D.C. Byrne, W.H. Guo, Q.Y. Lu, Electronicsletters . 2010,第14期

机译：由FP半导体激光器的自发放大光谱计算几何自发因子的技术
2. Technique to calculate geometric spontaneous emission factor from amplified spontaneous emission spectrum of FP semiconductor laser [J] . Electronics Letters . 2010,第14期

机译：由FP半导体激光器的自发放大光谱计算几何自发因子的技术
3. Modulation bandwidth of metal-clad semiconductor nanolasers with cavity-enhanced spontaneous emission [J] . Shore K.A. Electronics Letters . 2010,第25期

机译：腔增强自发发射的金属包覆半导体纳米激光器的调制带宽
4. Metal-clad subwavelength semiconductor lasers with temperature-insensitive spontaneous hyper-emission [C] . Smalley Joseph, Gu Qing, Puckett Matthew, Conference on Lasers and Electro-Optics . 2014

机译：对温度不敏感的自发超发射的金属包覆亚波长半导体激光器
5. Sub-wavelength Metal-Clad Semiconductor Lasers. [D] . Kim, Min W. 2011

机译：亚波长金属包覆半导体激光器。
6. Publisher Correction: Measurement of the emission spectrum of a semiconductor laser using laser-feedback interferometry [O] . James Keeley, Joshua Freeman, Karl Bertling, -1

机译：出版商更正：使用激光反馈干涉仪测量半导体激光器的发射光谱
7. Temperature effects in metal-clad semiconductor nanolasers [O] . Gu Qing, Smalley Joseph S.T., Shane Janelle, 2015

机译：金属包覆半导体纳米激光器的温度效应

Temperature Dependences of Metal-Clad Subwavelength Semiconductor Lasers (MCSELs): Geometric Invariance and the Spontaneous Emission Factor

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