Reflection sensitivity of dual-state quantum dot lasers

Zhiyong Jin; Heming Huang; Yueguang Zhou; Shiyuan Zhao; Shihao Ding; Cheng Wang; Yong Yao; Xiaochuan Xu; Frédéric Grillot; Jianan Duan

doi:10.1364/PRJ.494393

Reflection sensitivity of dual-state quantum dot lasers

Zhiyong Jin
, Heming Huang
, Yueguang Zhou
, Shiyuan Zhao
, Shihao Ding
, Cheng Wang
, Yong Yao
, Xiaochuan Xu
, Frédéric Grillot
, Jianan Duan

Research output: Contribution to journal › Article › peer-review

Abstract

This work experimentally and theoretically demonstrates the effect of excited state lasing on the reflection sensitivity of dual-state quantum dot lasers, showing that the laser exhibits higher sensitivity to external optical feedback when reaching the excited state lasing threshold. This sensitivity can be degraded by increasing the excited-to-ground-state energy separation, which results in a high excited-to-ground-state threshold ratio. In addition, the occurrence of excited state lasing decreases the damping factor and increases the linewidth enhancement factor, which leads to a low critical feedback level. These findings illuminate a path to fabricate reflection-insensitive quantum dot lasers for isolator-free photonic integrated circuits.

Original language	English
Pages (from-to)	1713-1722
Number of pages	10
Journal	Photonics Research
Volume	11
Issue number	10
DOIs	https://doi.org/10.1364/PRJ.494393
Publication status	Published - 1 Oct 2023

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title = "Reflection sensitivity of dual-state quantum dot lasers",

abstract = "This work experimentally and theoretically demonstrates the effect of excited state lasing on the reflection sensitivity of dual-state quantum dot lasers, showing that the laser exhibits higher sensitivity to external optical feedback when reaching the excited state lasing threshold. This sensitivity can be degraded by increasing the excited-to-ground-state energy separation, which results in a high excited-to-ground-state threshold ratio. In addition, the occurrence of excited state lasing decreases the damping factor and increases the linewidth enhancement factor, which leads to a low critical feedback level. These findings illuminate a path to fabricate reflection-insensitive quantum dot lasers for isolator-free photonic integrated circuits.",

author = "Zhiyong Jin and Heming Huang and Yueguang Zhou and Shiyuan Zhao and Shihao Ding and Cheng Wang and Yong Yao and Xiaochuan Xu and Fr{\'e}d{\'e}ric Grillot and Jianan Duan",

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T1 - Reflection sensitivity of dual-state quantum dot lasers

AU - Jin, Zhiyong

AU - Huang, Heming

AU - Zhou, Yueguang

AU - Zhao, Shiyuan

AU - Ding, Shihao

AU - Wang, Cheng

AU - Yao, Yong

AU - Xu, Xiaochuan

AU - Grillot, Frédéric

AU - Duan, Jianan

PY - 2023/10/1

Y1 - 2023/10/1

N2 - This work experimentally and theoretically demonstrates the effect of excited state lasing on the reflection sensitivity of dual-state quantum dot lasers, showing that the laser exhibits higher sensitivity to external optical feedback when reaching the excited state lasing threshold. This sensitivity can be degraded by increasing the excited-to-ground-state energy separation, which results in a high excited-to-ground-state threshold ratio. In addition, the occurrence of excited state lasing decreases the damping factor and increases the linewidth enhancement factor, which leads to a low critical feedback level. These findings illuminate a path to fabricate reflection-insensitive quantum dot lasers for isolator-free photonic integrated circuits.

AB - This work experimentally and theoretically demonstrates the effect of excited state lasing on the reflection sensitivity of dual-state quantum dot lasers, showing that the laser exhibits higher sensitivity to external optical feedback when reaching the excited state lasing threshold. This sensitivity can be degraded by increasing the excited-to-ground-state energy separation, which results in a high excited-to-ground-state threshold ratio. In addition, the occurrence of excited state lasing decreases the damping factor and increases the linewidth enhancement factor, which leads to a low critical feedback level. These findings illuminate a path to fabricate reflection-insensitive quantum dot lasers for isolator-free photonic integrated circuits.

UR - https://www.scopus.com/pages/publications/85174341597

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DO - 10.1364/PRJ.494393

M3 - Article

AN - SCOPUS:85174341597

SN - 2327-9125

VL - 11

SP - 1713

EP - 1722

JO - Photonics Research

JF - Photonics Research

IS - 10

ER -

Reflection sensitivity of dual-state quantum dot lasers

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