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Optimizations of Defect Filter Layers for 1.3-μm InAs/GaAs Quantum-Dot Lasers Monolithically Grown on Si Substrates

机译：用于在si衬底上单片生长的1.3μmInas/ Gaas量子点激光器的缺陷滤光层的优化

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III-V semiconductors monolithically grown on Si substrates are expected to be an ideal solution to integrate highly efficient light-emitting devices on a Si platform. However, the lattice mismatch between III-V and Si generates a high density of threading dislocations (TDs) at the interface between III-V and Si. Some of these TD will propagate into the III-V active region and lead to device degradation. By introducing defect filter layers (DFLs), the density of TDs propagating into the III-V layers can be significantly reduced. In this paper, we present an investigation on the development of InGaAs/GaAs strained-layer superlattices as DFLs for 1.3-μm InAs/GaAs quantum-dot lasers monolithically grown on a Si substrate. We compare two broad-area InAs/GaAs quantum-dot lasers with non-optimized and optimized InGaAs/GaAs DFLs. The laser device with optimal DFLs has a lower room-temperature threshold current density of 99 A/cm2 and higher maximum operation temperature of 88 °C, compared with 174 A/cm2 and 68 °C for the reference laser.\ud

机译：单片生长在Si衬底上的III-V半导体有望成为在Si平台上集成高效发光器件的理想解决方案。然而，III-V和Si之间的晶格失配在III-V和Si之间的界面处产生高密度的螺纹位错（TD）。其中一些TD将传播到III-V有源区并导致器件性能下降。通过引入缺陷过滤层（DFL），可以大大降低传播到III-V层中的TD的密度。在本文中，我们对在Si衬底上单片生长的1.3μmInAs / GaAs量子点激光器中作为DFL的InGaAs / GaAs应变层超晶格的发展进行了研究。我们将两个广域InAs / GaAs量子点激光器与未优化和优化的InGaAs / GaAs DFL进行了比较。与参考激光器的174 A / cm2和68°C相比，具有最佳DFL的激光器设备的室温阈值电流密度较低，为99 A / cm2，最高工作温度为88°C。

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Tang, M.; Chen, S.; Wu, J.; Jiang, Q.; Kennedy, K.; Jurczak, P.; Liao, M.; Beanland, R.; Seeds, A.; Liu, H.;
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1. Optimisation of the dislocation filter layers in 1.3-μm InAs/GaAs quantum-dot lasers monolithically grown on Si substrates [J] . Mingchu Tang, Jiang Wu, Siming Chen, Optoelectronics, IET . 2015,第2期

机译：在Si衬底上整体生长的1.3μmInAs / GaAs量子点激光器中位错滤光层的优化
2. InAs/GaAs Quantum-Dot Lasers Monolithically Grown on Si, Ge, and Ge-on-Si Substrates [J] . Lee A.D., Jiang Q., Tang M., IEEE journal of selected topics in quantum electronics . 2013,第4期

机译：在Si，Ge和Ge-on-Si衬底上整体生长InAs / GaAs量子点激光器
3. 1.3 μm InAs/GaAs quantum-dot laser monolithically grown on Si substrates operating over 100° [J] . Chen S.M., Tang M.C., Wu J., Electronics Letters . 2014,第20期

机译：1.3μmInAs / GaAs量子点激光器单片生长在工作于100°以上的Si衬底上
4. 1.3µm InAs/GaAs Quantum-Dot Laser Monolithically Grown on Si Substrates Using InAlAs/GaAs Dislocation Filter Layers [C] . Chen S., Tang M., Wu J., IEEE International Semiconductor Laser Conference . 2014

机译：使用InAlAs / GaAs位错滤光层在Si衬底上整体生长1.3μmInAs / GaAs量子点激光器
5. Optoelectronic devices based on low threshold strained InGaAs/GaAs quantum well lasers grown on structured substrates [D] . Frateschi, Newton Cesario 1993

机译：基于在结构化衬底上生长的低阈值应变InGaAs / GaAs量子阱激光器的光电器件
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. High-performance three-layer 1.3-/spl mu/m InAs-GaAs quantum-dot lasers with very low continuous-wave room-temperature threshold currentsud [O] . Liu H.Y., Childs D.T., Badcock T.J., 2005

机译：高性能三层1.3- / spl mu / m Inas-Gaas量子点激光器，具有极低的连续波室温阈值电流 ud

Optimizations of Defect Filter Layers for 1.3-μm InAs/GaAs Quantum-Dot Lasers Monolithically Grown on Si Substrates

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