Carrier Dynamics and Modulation Capabilities of 1.55- m Quantum-Dot Lasers

Gready D.; Eisenstein G.

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Carrier Dynamics and Modulation Capabilities of 1.55- m Quantum-Dot Lasers

机译：1.55 m量子点激光器的载流子动力学和调制能力

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We present a spatially resolved model for multilayer quantum-dot (QD) lasers. The detailed model incorporates the homogeneous and inhomogeneous gain broadenings. Using this model, we examined effects of various structural parameters on the modulation response. Modulation bandwidth is increased with shortening the distance from the contacts to the active area, shortening the distance between QD layers, and with increasing the number of QD layers. The number of QD layers should be carefully chosen in order to prevent a transport bottleneck. Asymmetric positioning of the QD layers with respect to the waveguide core was found to improve the modulation bandwidth.

机译：我们提出了一种用于多层量子点（QD）激光器的空间分辨模型。详细模型结合了均匀和非均匀增益扩展。使用该模型，我们检查了各种结构参数对调制响应的影响。通过缩短从触点到有源区的距离，缩短QD层之间的距离以及增加QD层的数量，可以增加调制带宽。 QD层的数量应仔细选择，以防止运输瓶颈。发现QD层相对于波导芯的不对称定位可改善调制带宽。

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《IEEE journal of selected topics in quantum electronics》 |2013年第4期|1-7|共7页
作者
Gready D.; Eisenstein G.;
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Department of Electrical Engineering , Technion—Israel Institute of Technology, Haifa, Israel|c|;

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原文格式 PDF
正文语种 eng
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关键词
Carrier dynamics; quantum dots (QDs); semiconductor lasers;

机译：载流子动力学;量子点（QD）;半导体激光器;

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专利

1. Carrier dynamics and high-speed modulation properties of tunnel injection InGaAs-GaAs quantum-dot lasers [J] . Bhattacharya P., Ghosh S., Pradhan S., IEEE Journal of Quantum Electronics . 2003,第8期

机译：隧道注入InGaAs-GaAs量子点激光器的载流子动力学和高速调制特性
2. Carrier dynamics and high-speed modulation properties of tunnel injection InGaAs-GaAs quantum-dot lasers [J] . Bhattacharya P., Ghosh S., Pradhan S., IEEE Journal of Quantum Electronics . 2003,第8期

机译：隧道注入InGaAs-GaAs量子点激光器的载流子动力学和高速调制特性
3. Carrier dynamics and high-speed modulation properties of tunnel injection InGaAs-GaAs quantum-dot lasers [J] . Bhattacharya P., Ghosh S., Pradhan S., IEEE Journal of Quantum Electronics . 2003,第8期

机译：隧道喷射IngaAs-GaAs量子点激光器的载波动力学和高速调制特性
4. Measurement of spatially dependent carrier lifetimes in 1.55-/spl mu/m DFB quantum well lasers using microwave modulation [C] . Fang, W., Bethe, . 1996

机译：使用微波调制测量1.55- / splμ/ m DFB量子阱激光器中与空间相关的载流子寿命
5. Particle dynamics and energy transfer in high-speed quantum well lasers: Effects of spectral hole burning, carrier heating, and carrier transport [D] . Tsai, Chin-Yi. 1995

机译：高速量子井激光器中的粒子动力学和能量转移：光谱燃烧，载体加热和载流子的效果
6. Thermal Effects and Small Signal Modulation of 1.3-μm InAs/GaAs Self-Assembled Quantum-Dot Lasers [O] . HX Zhao, SF Yoon, CZ Tong, 2011

机译：1.3μmInAs / GaAs自组装量子点激光器的热效应和小信号调制
7. Analysis of carriers dynamics and laser emission in 1.55-μm InAs/InP(113)B quantum dot lasers [O] . Even, J., Grillot, F., Veselinov, K., 2010

机译：1.55-μmInAs / InP（113）B量子点激光器中载流子动力学和激光发射分析
8. Modulation Response of a Long-Cavity, Gain-Levered Quantum-Dot Semiconductor Laser - Postprint. [R] . Usechak, N. G., Pochet, M., Schmidt, J., 2014

机译：长腔增益 - 量子点半导体激光器的调制响应 - 后印刷。

Carrier Dynamics and Modulation Capabilities of 1.55- m Quantum-Dot Lasers

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