Modulation bandwidth, noise, and stability of a semiconductor laser subject to strong injection locking

Operating conditions for modulation bandwidth enhancement, noise reduction, and stable locking to be simultaneously fulfilled in a semiconductor laser subject to strong optical injection are investigated. When the strength of the injection signal is fixed, the optimum detuning of the injection frequ...

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Published inIEEE photonics technology letters Vol. 9; no. 10; pp. 1325 - 1327
Main Authors Liu, J.M., Chen, H.F., Meng, X.J., Simpson, T.B.
Format Journal Article
LanguageEnglish
Published IEEE 01.10.1997
Subjects
Bandwidth
Frequency
Injection-locked oscillators
Laser noise
Laser stability
Laser theory
Noise reduction
Optical bistability
Semiconductor device noise
Semiconductor lasers
Online AccessGet full text
ISSN1041-1135
1941-0174
DOI10.1109/68.623251

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Abstract Operating conditions for modulation bandwidth enhancement, noise reduction, and stable locking to be simultaneously fulfilled in a semiconductor laser subject to strong optical injection are investigated. When the strength of the injection signal is fixed, the optimum detuning of the injection frequency exists as a tradeoff between bandwidth enhancement and noise reduction. When the laser is injection-locked at a given value of frequency detuning in the stable locking region, both bandwidth enhancement and noise reduction are improved as the injection parameter is increased over a wide range.
AbstractList Operating conditions for modulation bandwidth enhancement, noise reduction, and stable locking to be simultaneously fulfilled in a semiconductor laser subject to strong optical injection are investigated. When the strength of the injection signal is fixed, the optimum detuning of the injection frequency exists as a tradeoff between bandwidth enhancement and noise reduction. When the laser is injection-locked at a given value of frequency detuning in the stable locking region, both bandwidth enhancement and noise reduction are improved as the injection parameter is increased over a wide range
Operating conditions for modulation bandwidth enhancement, noise reduction, and stable locking to be simultaneously fulfilled in a semiconductor laser subject to strong optical injection are investigated. When the strength of the injection signal is fixed, the optimum detuning of the injection frequency exists as a tradeoff between bandwidth enhancement and noise reduction. When the laser is injection-locked at a given value of frequency detuning in the stable locking region, both bandwidth enhancement and noise reduction are improved as the injection parameter is increased over a wide range.
Author Chen, H.F.
Meng, X.J.
Simpson, T.B.
Liu, J.M.
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  givenname: T.B.
  surname: Simpson
  fullname: Simpson, T.B.
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Cites_doi 10.1103/PhysRevA.51.4181
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10.1109/3.89994
10.1109/JQE.1985.1072760
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SubjectTerms Bandwidth
Frequency
Injection-locked oscillators
Laser noise
Laser stability
Laser theory
Noise reduction
Optical bistability
Semiconductor device noise
Semiconductor lasers
Title Modulation bandwidth, noise, and stability of a semiconductor laser subject to strong injection locking
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