Dynamic performance and reflection sensitivity of quantum dot distributed feedback lasers with large optical mismatch

Bozhang Dong; Jianan Duan; Heming Huang; Justin C. Norman; Kenichi Nishi; Keizo Takemasa; Mitsuru Sugawara; John E. Bowers; Frédéric Grillot

doi:10.1364/PRJ.421285

Dynamic performance and reflection sensitivity of quantum dot distributed feedback lasers with large optical mismatch

Bozhang Dong
, Jianan Duan
, Heming Huang
, Justin C. Norman
, Kenichi Nishi
, Keizo Takemasa
, Mitsuru Sugawara
, John E. Bowers
, Frédéric Grillot

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

Abstract

This work reports on a high-efficiency InAs/GaAs distributed feedback quantum dot laser. The large optical wavelength detuning at room temperature between the lasing peak and the gain peak causes the static, dynamic, and nonlinear intrinsic properties to all improve with temperature, including the lasing efficiency, the modulation dynamics, the linewidth enhancement factor, and consequently the reflection insensitivity. Results reported show an optimum operating temperature at 75°C, highlighting the potential of the large optical mismatch assisted single-frequency laser for the development of uncooled and isolator-free high-speed photonic integrated circuits.

Original language	English
Pages (from-to)	1550-1558
Number of pages	9
Journal	Photonics Research
Volume	9
Issue number	8
DOIs	https://doi.org/10.1364/PRJ.421285
Publication status	Published - 1 Aug 2021

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title = "Dynamic performance and reflection sensitivity of quantum dot distributed feedback lasers with large optical mismatch",

abstract = "This work reports on a high-efficiency InAs/GaAs distributed feedback quantum dot laser. The large optical wavelength detuning at room temperature between the lasing peak and the gain peak causes the static, dynamic, and nonlinear intrinsic properties to all improve with temperature, including the lasing efficiency, the modulation dynamics, the linewidth enhancement factor, and consequently the reflection insensitivity. Results reported show an optimum operating temperature at 75°C, highlighting the potential of the large optical mismatch assisted single-frequency laser for the development of uncooled and isolator-free high-speed photonic integrated circuits.",

author = "Bozhang Dong and Jianan Duan and Heming Huang and Norman, \{Justin C.\} and Kenichi Nishi and Keizo Takemasa and Mitsuru Sugawara and Bowers, \{John E.\} and Fr{\'e}d{\'e}ric Grillot",

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T1 - Dynamic performance and reflection sensitivity of quantum dot distributed feedback lasers with large optical mismatch

AU - Dong, Bozhang

AU - Duan, Jianan

AU - Huang, Heming

AU - Norman, Justin C.

AU - Nishi, Kenichi

AU - Takemasa, Keizo

AU - Sugawara, Mitsuru

AU - Bowers, John E.

AU - Grillot, Frédéric

PY - 2021/8/1

Y1 - 2021/8/1

N2 - This work reports on a high-efficiency InAs/GaAs distributed feedback quantum dot laser. The large optical wavelength detuning at room temperature between the lasing peak and the gain peak causes the static, dynamic, and nonlinear intrinsic properties to all improve with temperature, including the lasing efficiency, the modulation dynamics, the linewidth enhancement factor, and consequently the reflection insensitivity. Results reported show an optimum operating temperature at 75°C, highlighting the potential of the large optical mismatch assisted single-frequency laser for the development of uncooled and isolator-free high-speed photonic integrated circuits.

AB - This work reports on a high-efficiency InAs/GaAs distributed feedback quantum dot laser. The large optical wavelength detuning at room temperature between the lasing peak and the gain peak causes the static, dynamic, and nonlinear intrinsic properties to all improve with temperature, including the lasing efficiency, the modulation dynamics, the linewidth enhancement factor, and consequently the reflection insensitivity. Results reported show an optimum operating temperature at 75°C, highlighting the potential of the large optical mismatch assisted single-frequency laser for the development of uncooled and isolator-free high-speed photonic integrated circuits.

UR - https://www.scopus.com/pages/publications/85112007453

U2 - 10.1364/PRJ.421285

DO - 10.1364/PRJ.421285

M3 - Article

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VL - 9

SP - 1550

EP - 1558

JO - Photonics Research

JF - Photonics Research

IS - 8

ER -

Dynamic performance and reflection sensitivity of quantum dot distributed feedback lasers with large optical mismatch

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