InAs/GaAs量子点激光器的高功率与反馈鲁棒单态工作

High power and feedback-resilient single-state operation in an InAs/GaAs quantum dot laser

作者	Mingzhao Shi · Heming Huang · Mario Dumont · John E. Bowers · Frédéric Grillot
期刊	Applied Physics Letters
出版日期	2026年2月
卷/期	第 128 卷第 8 期
技术分类	功率器件技术
技术标签	宽禁带半导体功率模块可靠性分析热仿真
相关度评分	★★ 2.0 / 5.0
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中文摘要

本文展示了一种InAs/GaAs量子点法布里-珀罗激光器在光学反馈下优异的鲁棒性，源于其异常大的激发态与基态阈值电流比，可在室温下、偏置电流达基态阈值50倍时，承受高达16.6%的光学反馈并保持光谱纯度与动态稳定。

English Abstract

This paper demonstrates the exceptional optical feedback resilience of an InAs/GaAs quantum dot Fabry–Pérot laser, enabled by an unusually large excited state to ground-state threshold current ratio. This wide separation effectively suppresses gain competition and nonlinear coupling, allowing the device to maintain spectral purity and dynamic stability under optical feedback levels up to 16.6%, even when biased at 50 times the ground-state threshold current at room temperature. These findings further highlight the intrinsic robustness of quantum dot lasers, still positioning them as promising candidates for isolator-free operation in silicon photonics and co-packaged optics platforms, as well as for low-noise and feedback-resilient photonic systems.

SunView 深度解读

该研究聚焦于量子点激光器的光学反馈抑制能力，属光电子器件前沿基础研究，与阳光电源核心业务（光伏逆变器、储能PCS、风电变流器等电力电子系统）无直接产品关联。但其关于非线性耦合抑制、热-光稳定性及宽电流范围鲁棒运行的机理分析，对高可靠性功率模块（如ST系列PCS中SiC驱动级光耦隔离设计、iSolarCloud平台的光通信模块抗干扰优化）具间接参考价值；建议关注其热-光协同建模方法，用于改进功率器件热仿真精度。