嵌入光子腔结构中InAs/GaAs量子点中间态的载流子动力学

T. Kita, T. Maeda, Y. Harada
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引用次数: 0

摘要

利用双色光激发光谱研究了嵌入一维光子腔结构中的InAs/GaAs自组装量子点(QDs)从中间态到连续态的时间分辨带内跃迁。对光子间隙进行调谐以增强从中间态到导带的激发,选择导带的能量小于中间态与量子化空穴态之间的带间跃迁能量。在中间态中选择性抽运载流子可显著降低光致发光强度。通过对载流子弛豫过程的详细建模,分析了这种影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Carrier dynamics in intermediate states of InAs/GaAs quantum dots embedded in photonic cavity structure
We have studied time-resolved intraband transition from the intermediate state to the continuum state of the conduction band in InAs/GaAs self-assembled quantum dots (QDs) embedded in a one-dimensional photonic cavity structure using a two-color photoexcitation spectroscopy. The photonic gap was tuned to enhance the excitation from the intermediate state to the conduction band, whose energy is selected to be less than the interband transition energy between the intermediate state and the quantized hole state. The photoluminescence intensity was observed to be dramatically reduced by selectively pumping carriers in the intermediate state. This effect has been analyzed by modeling detailed carrier relaxation process.
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