Microwave photonic signal generation in an optically injected discrete mode semiconductor laser

Da Chang; Zhuqiang Zhong; Angel Valle; Wei Jin; Shan Jiang; Jianming Tang; Yanhua Hong

doi:10.3390/photonics9030171

Microwave photonic signal generation in an optically injected discrete mode semiconductor laser

Da Chang, Zhuqiang Zhong, Angel Valle, Wei Jin, Shan Jiang, Jianming Tang, Yanhua Hong

School of Computer Science & Engineering

Instituto de Física de Cantabria

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

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Abstract

In this paper, microwave photonic signal generation based on the period-one dynamic of optically injected discrete mode (DM) semiconductor lasers has been experimentally demonstrated and numerically simulated. The results show that the frequency of the generated microwave increases linearly with the frequency detuning or optical injection ratio. In addition, a single optical feedback loop is sufficient to reduce the microwave linewidth without significantly deteriorating side mode suppression. The simulation results using a model considering the nonlinear dependencies of the carrier recombination agree well with the experimental results, which indicates that the nonlinear carrier recombination effect is important in determining the nonlinear dynamics of optically injected DM lasers

Original language	English
Article number	171
Journal	Photonics
Volume	9
Issue number	3
DOIs	https://doi.org/10.3390/photonics9030171
Publication status	Published - 10 Mar 2022

Keywords

discrete mode semiconductor laser
microwave photonics signal generation
optical injection

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10.3390/photonics9030171Licence: CC BY

Photonics-1618055BAccepted author manuscript, 915 KBLicence: CC BY

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title = "Microwave photonic signal generation in an optically injected discrete mode semiconductor laser",

abstract = "In this paper, microwave photonic signal generation based on the period-one dynamic of optically injected discrete mode (DM) semiconductor lasers has been experimentally demonstrated and numerically simulated. The results show that the frequency of the generated microwave increases linearly with the frequency detuning or optical injection ratio. In addition, a single optical feedback loop is sufficient to reduce the microwave linewidth without significantly deteriorating side mode suppression. The simulation results using a model considering the nonlinear dependencies of the carrier recombination agree well with the experimental results, which indicates that the nonlinear carrier recombination effect is important in determining the nonlinear dynamics of optically injected DM lasers",

keywords = "discrete mode semiconductor laser, microwave photonics signal generation, optical injection",

author = "Da Chang and Zhuqiang Zhong and Angel Valle and Wei Jin and Shan Jiang and Jianming Tang and Yanhua Hong",

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T1 - Microwave photonic signal generation in an optically injected discrete mode semiconductor laser

AU - Chang, Da

AU - Zhong, Zhuqiang

AU - Valle, Angel

AU - Jin, Wei

AU - Jiang, Shan

AU - Tang, Jianming

AU - Hong, Yanhua

PY - 2022/3/10

Y1 - 2022/3/10

N2 - In this paper, microwave photonic signal generation based on the period-one dynamic of optically injected discrete mode (DM) semiconductor lasers has been experimentally demonstrated and numerically simulated. The results show that the frequency of the generated microwave increases linearly with the frequency detuning or optical injection ratio. In addition, a single optical feedback loop is sufficient to reduce the microwave linewidth without significantly deteriorating side mode suppression. The simulation results using a model considering the nonlinear dependencies of the carrier recombination agree well with the experimental results, which indicates that the nonlinear carrier recombination effect is important in determining the nonlinear dynamics of optically injected DM lasers

AB - In this paper, microwave photonic signal generation based on the period-one dynamic of optically injected discrete mode (DM) semiconductor lasers has been experimentally demonstrated and numerically simulated. The results show that the frequency of the generated microwave increases linearly with the frequency detuning or optical injection ratio. In addition, a single optical feedback loop is sufficient to reduce the microwave linewidth without significantly deteriorating side mode suppression. The simulation results using a model considering the nonlinear dependencies of the carrier recombination agree well with the experimental results, which indicates that the nonlinear carrier recombination effect is important in determining the nonlinear dynamics of optically injected DM lasers

KW - discrete mode semiconductor laser

KW - microwave photonics signal generation

KW - optical injection

U2 - 10.3390/photonics9030171

DO - 10.3390/photonics9030171

M3 - Article

SN - 2304-6732

VL - 9

JO - Photonics

JF - Photonics

IS - 3

M1 - 171

ER -

Microwave photonic signal generation in an optically injected discrete mode semiconductor laser

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