Theoretical study of a quantum dot microcavity laser

机译：量子点微胶囊激光的理论研究

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Here we theoretically investigate a new laser device structure model based on a single semiconductor quantum dot (QD) gain emitter, where the lasing occurs through discrete conduction states. A single QD is selectively placed in a high quality microcavity, called a microdisk, which is resonant with an intersublevel QD transition. The quantitative results of fully quantum-mechanical treatment here show that, when adjusting the QD-cavity coupling parameters to be appropriate values, the microcavity coupling mode would lead to a very high photon intensity of the single QD microcavity laser. The QD-cavity coupling interaction is modeled in the strong-coupling regime, and we conclude that the present QD microcavity system itself can serve as a new novel terahertz laser with low threshold.

机译：在这里，我们理论上基于单个半导体量子点（QD）增益发射器的新的激光器件结构模型研究，其中激光通过离散传导状态发生。单个QD选择性地放置在高质量的微腔中，称为微芯片，其与交叉型QD转换的谐振。这里全量子机械处理的定量结果表明，当调节QD腔耦合参数是适当的值时，微腔耦合模式将导致单个QD微腔激光的非常高的光子强度。 QD腔耦合相互作用在强耦合方案中建模，我们得出结论，目前的QD微腔系统本身可以作为具有低阈值的新型太赫兹激光器。

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《International Congress on High-Speed Photography and Photonics》|2007年||共7页
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Guangcun Shan; Shuying Bao;
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中图分类高速摄影;
关键词
Quantum dot (QD); microcavity; terahertz laser; Lindblad; exciton;

机译：量子点（QD）;微腔;太赫兹激光;Lindblad;Exciton;

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专利

1. High Q (33 000) all-epitaxial microcavity for quantum dot vertical-cavity surface-emitting lasers and quantum light sources [J] . Andreas Muller, Chih-Kang Shih, Jaemin Ahn, Applied Physics Letters . 2006,第3期

机译：高Q（33 000）全外延微腔，用于量子点垂直腔面发射激光器和量子光源
2. Theoretical study of laser-mode competition in quantum-dot semiconductor lasers using a self-consistent electro-opto-thermal model [J] . Yousefvand Hossein Reza, Faris Ziba Journal of the Optical Society of America, B. Optical Physics . 2017,第8期

机译：用自一致电光热模型的量子点半导体激光激光模式竞争的理论研究
3. Theoretical investigation of 1.3 μm dots-under-a-well and dots-in-a-well InAs/GaAs quantum dot vertical-cavity surface-emitting lasers [J] . C. Z. Tong, D. W. Xu, S. F. Yoon Journal of Applied Physics . 2009,第3期

机译：InAs / GaAs量子点垂直腔面发射激光器1.3μm孔下和孔中点的理论研究
4. Theoretical Study of a Quantum Dot Microcavity Laser [C] . Guangcun Shan, Shuying Bao International Congress on High-Speed Photography and Photonics . 2007

机译：量子点微腔激光器的理论研究
5. Theoretical study of gallium arsenide-based quantum dot lasers and microcavity light emitting diodes. [D] . Huang, Hua. 2004

机译：基于砷化镓的量子点激光器和微腔发光二极管的理论研究。
6. Elimination of Bimodal Size in InAs/GaAs Quantum Dots for Preparation of 1.3-μm Quantum Dot Lasers [O] . Xiang-Bin Su, Ying Ding, Ben Ma, 2018

机译：消除用于制备1.3μm量子点激光器的InAs / GaAs量子点中的双峰尺寸
7. Estudio Te\'orico del espectro de emisi\'on para un sistema microcavidad-punto cu\'antico en una aproximaci\'on de campo medio (Theoretical study of emission spectrum for a quantum dot-microcavity system in a mean field approximation) [O] . Rojas-Arias, Juan S., Rodriguez, B., Vinck-Posada, Herbert 2015

机译：Estudio Te \'orico del espectro de emisi \'on para un sistema 在de campo medio上的microcavidad-punto cu \'antico en una aproximaci \' （量子点 - 微腔系统发射光谱的理论研究）在平均场近似中）
8. Theoretical Study of Operational Limits of High-Speed Quantum Dot Lasers. [R] . L. V. Asryan 2012

机译：高速量子点激光器运行极限的理论研究。

Theoretical study of a quantum dot microcavity laser

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