Few-quantum-dot lasing in photonic crystal nanocavities

J. Liu, S. Ateş, S. Stobbe, M. Lorke, P. Lodahl
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引用次数: 0

Abstract

Photonic crystal nanolasers have attracted great interest both for fundamental research and applications in the past decade. In photonic crystal cavities, the leakage to optical modes is strongly reduced, which increases the spontaneous emission coupling factor, β. This is a crucial parameter for the threshold characteristics of lasers. With increasing β, the well-known step-like threshold behavior becomes smoother. Although the smooth lasing transitions of photonic crystal nanolasers were observed and fitted by traditional rate equation models [1], a systematic comparison between experiments and more advanced semiconductor models of photonic crystal nanolasers is still missing [2]. The goal of this work is to get a deep understanding of the quantum dots based nanocavity lasers by comparing experiments to theory.
光子晶体纳米腔中的少量子点激光
近十年来,光子晶体纳米激光器在基础研究和应用方面都引起了人们极大的兴趣。在光子晶体腔中,向光学模式的泄漏大大减少,这增加了自发发射耦合因子β。这是激光阈值特性的关键参数。随着β的增加,众所周知的阶梯阈值行为变得更平滑。虽然用传统的速率方程模型观察并拟合了光子晶体纳米激光器的光滑激光跃迁[1],但仍缺乏将实验与更先进的光子晶体纳米激光器半导体模型进行系统比较[2]。这项工作的目标是通过实验与理论的比较,深入了解基于量子点的纳米腔激光器。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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