Optimization of GaAs amplification photodetectors for 700% quantum efficiency

Piprek J.; Lasaosa D.; Pasquariello D.; Bowers J.E.

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Optimization of GaAs amplification photodetectors for 700% quantum efficiency

机译：优化GaAs放大光电探测器以实现700％的量子效率

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We investigate the device physics of novel GaAs waveguide photodetectors with integrated photon multiplication. Such detectors have the potential to achieve simultaneously high saturation power, high speed, high responsivity, and quantum efficiencies above 100%. Our device design vertically combines a bulk photodetector ridge waveguide region with laterally confined quantum wells for amplification. Measurements on the first device generation show quantum efficiencies of only 56%. Advanced device simulation is employed to analyze these devices and to reveal performance limitations. Excellent agreement between simulations and measurements is obtained. Device design optimization is proposed, promising more than 700% efficiency.

机译：我们研究了集成光子倍增的新型GaAs波导光电探测器的器件物理特性。这样的检测器有可能同时实现高饱和功率，高速，高响应度和超过100％的量子效率。我们的设备设计在垂直方向结合了一个大型光电探测器的脊形波导区域和横向受限的量子阱，以进行放大。在第一代设备上进行的测量表明，量子效率仅为56％。使用高级设备仿真来分析这些设备并揭示性能限制。在仿真和测量之间获得了极好的一致性。提出了器件设计优化方案，有望实现700％以上的效率。

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来源
《IEEE journal of selected topics in quantum electronics 》 |2003年第3期| p.776-782| 共7页
作者
Piprek J.; Lasaosa D.; Pasquariello D.; Bowers J.E.;
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原文格式 PDF
正文语种 eng
中图分类电工技术 ;
关键词
III-V semiconductors; gallium arsenide; integrated optics; microwave photonics; photodetectors; quantum well devices; ridge waveguides; semiconductor device models; GaAs; Joule heating; advanced numerical simulation; bulk photodetector ridge waveguide; carrier trans;

机译：III-V半导体;砷化镓;集成光学器件;微波光子学;光电探测器;量子阱器件;脊形波导;半导体器件模型;GaAs;焦耳加热;高级数值模拟;大容量光电探测器脊形波导;载流子传输;

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1. Optimization of GaAs amplification photodetectors for 700% quantum efficiency [J] . Piprek J., Lasaosa D., Pasquariello D., IEEE journal of selected topics in quantum electronics . 2003 ,第3期

机译：优化GaAs放大光电探测器以实现700％的量子效率
2. Optimization of GaAs amplification photodetectors for 700% quantum efficiency [J] . Piprek J., Lasaosa D., Pasquariello D., IEEE journal of selected topics in quantum electronics . 2003 ,第3期

机译：GaAs放大光电探测器的优化700％量子效率
3. Near-infrared quantum efficiency of uncooled photodetectors based on InGaAs/GaAsSb quantum wells lattice-matched to InP [J] . J. Yuan, B. Chen, A.L. Holmes Jr Electronics Letters . 2011 ,第20期

机译：基于InGaAs / GaAsSb量子阱与InP晶格匹配的未冷却光电探测器的近红外量子效率
4. Theoretical study of the quantum efficiency of InGaAs/GaAs resonant cavity enhanced photodetectors [C] . Gryshchenko, S. V., Dyomin, . 2007

机译：InGaAs / GaAs谐振腔增强光电探测器量子效率的理论研究
5. Improving Sub-Bandgap Carrier Collection in GaAs Solar Cells by Optimizing InGaAs Quantum Wells Using Strain-Balancing and Distributed Bragg Reflectors [D] . Bogner, Brandon. 2021

机译：通过使用应变平衡和分布布拉格反射器优化InGaAs量子阱，改善GaAs太阳能电池中的子带隙载体收集
6. Long-wavelength room-temperature luminescence from InAs/GaAs quantum dots with an optimized GaAsSbN capping layer [O] . Antonio D Utrilla, Jose M Ulloa, Alvaro Guzman, 2014

机译：具有优化的GaAsSbN覆盖层的InAs / GaAs量子点的长波长室温发光
7. Optimization of GaAs Amplification Photodetectors for 700 % Quantum Efficiency [O] . Joachim Piprek, Senior Member, Daniel Lasaosa, 2015

机译：Gaas放大光电探测器700％量子效率的优化
8. Observation of Quantum-Confined Stark Effect in Triple-Coupled InGaAs/ GaAs/AlGaAs Quantum Well Infrared Photodetector. [R] . Li, S. S., Chiang, J. C., Singh, A., 1997

机译：三重耦合InGaas / Gaas / alGaas量子阱红外光电探测器中量子限制斯塔克效应的观测。

Optimization of GaAs amplification photodetectors for 700% quantum efficiency

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