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Integrating III-V quantum dot lasers on silicon substrates for silicon photonics

机译：将III-V量子点激光器集成在硅光子硅基板上

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The realization of efficient III-V lasers directly grown on Si substrates is highly desirable for large-scale and low-cost silicon based optoelectronic integrated circuits. However, it has been hindered by the high threading dislocation (TD) density generated at the interface between III-V compounds and Si substrates. Introducing dislocation filter layers (DFLs) to suppress the TD propagation into the active region becomes a key factor for realising lasers with advanced performance. In this paper, optimization of InGaAs/GaAs DFLs in III-V quantum dot (QD) lasers on Si is demonstrated. Based on these optimized DFLs and other strategies, we have achieved a high performance electrically pumped QD laser on a Si substrate with threshold current density of 62.5 A cm"2, over 105 mW output power, maximum operation temperature of 120 °C and over 100,158 h of extrapolated lifetime.

机译：对于大型和低成本硅基光电集成电路，非常需要直接生长在Si基板上的有效III-V激光器的实现。然而，它受到III-V化合物和Si衬底之间的界面处产生的高螺纹位错（TD）密度受阻。引入位错滤波器层（DFL）抑制TD传播到有源区域成为实现具有高级性能的激光器的关键因素。在本文中，证明了Si上III-V量子点（QD）激光器InGaAs / GaAs DFL的优化。基于这些优化的DFL和其他策略，我们已经在Si基板上实现了高性能电泵浦QD激光器，阈值电流密度为62.5厘米“2，超过105MW输出功率，最大操作温度为120°C和超过100,158 H外推寿命。

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《Conference on silicon photonics XII》|2017年|v. p.|共8页
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作者
M. Liao; S. Chen; M. Tang; J. Wu; W. Li; K. Kennedy; I. Ross; A. Seeds; H. Liu;
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中图分类 TN342.7;
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Molecular beam epitaxy; quantum dots; lasers; silicon photonics;

机译：分子束外延;量子点;激光;硅光子;

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专利

1. Growth of InAs/GaAs quantum dots on Si, Ge/Si and germanium-on-insulator-on-silicon (GeOI) substrates emitting in the 1.3 urn band for silicon photonics [J] . Mohan Rajesh, Damien Bordel, Kenichi Kawaguchi, Journal of Crystal Growth . 2011,第1期

机译：Si，Ge / Si和硅绝缘子上锗（GeOI）衬底上以1.3 n波段发射的InAs / GaAs量子点在硅光子学上的生长
2. Growth of InAs/GaAs quantum dots on germanium-on-insulator-on-silicon substrate for silicon photonics [J] . Bordel D., Rajesh M., Nishioka M., Physica, E. Low-dimensional systems & nanostructures . 2010,第10期

机译：硅光子上绝缘子上锗衬底上InAs / GaAs量子点的生长
3. Electrically pumped continuous-wave III-V quantum dot lasers on silicon [J] . Chen Siming, Li Wei, Wu Jiang, Nature photonics . 2016,第5期

机译：硅上的电泵浦连续波III-V量子点激光器
4. Integrating III-V quantum dot lasers on silicon substrates for silicon photonics [C] . M. Liao, S. Chen, M. Tang, Silicon photonics XII . 2017

机译：在硅基板上集成III-V量子点激光器以用于硅光子学
5. CMOS Integration of High Performance Quantum Dot Lasers for Silicon Photonics [D] . Wang, Zihao. 2018

机译：硅光子学高性能量子点激光器的CMOS集成
6. Hybrid integration of III-V semiconductor lasers on silicon waveguides using optofluidic microbubble manipulation [O] . Youngho Jung, Jaeho Shim, Kyungmook Kwon, -1

机译：使用光流微泡操作将III-V半导体激光器混合集成在硅波导上
7. Integrating III-V quantum dot lasers on silicon substrates for silicon photonics [O] . M. Liao, S. Chen, M. Tang, 2017

机译：将III-V量子点激光器集成在硅光子硅基板上
8. Silicon MCM substrates for integration of III-V photonic devices and CMOS IC's [R] . Seigal, P., Carson, R., Flores, R., 1993

机译：硅mCm基板，用于集成III-V光子器件和CmOs IC

Integrating III-V quantum dot lasers on silicon substrates for silicon photonics

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