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The wavelength-dependent transfer function for optically controlled semiconductor lasers

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Zeitschriftentitel: Journal of Applied Physics
Personen und Körperschaften: Parker, M. A., Shire, D. B.
In: Journal of Applied Physics, 83, 1998, 10, S. 5056-5060
Format: E-Article
Sprache: Englisch
veröffentlicht:
AIP Publishing
Schlagwörter:
General Physics and Astronomy
author_facet Parker, M. A.
Shire, D. B.
Parker, M. A.
Shire, D. B.
author Parker, M. A.
Shire, D. B.
spellingShingle Parker, M. A.
Shire, D. B.
Journal of Applied Physics
The wavelength-dependent transfer function for optically controlled semiconductor lasers
General Physics and Astronomy
author_sort parker, m. a.
spelling Parker, M. A. Shire, D. B. 0021-8979 1089-7550 AIP Publishing General Physics and Astronomy http://dx.doi.org/10.1063/1.367322 <jats:p>The optically controlled laser, consisting of a main semiconductor laser with an associated control beam, is important for integrated high-speed optical signal processing and for optical communications. The optically controlled laser rate equations, the gain, and the wavelength-dependent transfer function are derived from the Liouville equation for the density matrix describing a system with multiple perturbing optical fields. The results explain the primary effects of coherent and noncoherent control signals upon the output of the main laser (illustrated with experimental data). Predictions are obtained for optical gain, wavelength conversion, and FM-to-AM demodulation.</jats:p> The wavelength-dependent transfer function for optically controlled semiconductor lasers Journal of Applied Physics
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title The wavelength-dependent transfer function for optically controlled semiconductor lasers
title_unstemmed The wavelength-dependent transfer function for optically controlled semiconductor lasers
title_full The wavelength-dependent transfer function for optically controlled semiconductor lasers
title_fullStr The wavelength-dependent transfer function for optically controlled semiconductor lasers
title_full_unstemmed The wavelength-dependent transfer function for optically controlled semiconductor lasers
title_short The wavelength-dependent transfer function for optically controlled semiconductor lasers
title_sort the wavelength-dependent transfer function for optically controlled semiconductor lasers
topic General Physics and Astronomy
url http://dx.doi.org/10.1063/1.367322
publishDate 1998
physical 5056-5060
description <jats:p>The optically controlled laser, consisting of a main semiconductor laser with an associated control beam, is important for integrated high-speed optical signal processing and for optical communications. The optically controlled laser rate equations, the gain, and the wavelength-dependent transfer function are derived from the Liouville equation for the density matrix describing a system with multiple perturbing optical fields. The results explain the primary effects of coherent and noncoherent control signals upon the output of the main laser (illustrated with experimental data). Predictions are obtained for optical gain, wavelength conversion, and FM-to-AM demodulation.</jats:p>
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author Parker, M. A., Shire, D. B.
author_facet Parker, M. A., Shire, D. B., Parker, M. A., Shire, D. B.
author_sort parker, m. a.
container_issue 10
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container_title Journal of Applied Physics
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description <jats:p>The optically controlled laser, consisting of a main semiconductor laser with an associated control beam, is important for integrated high-speed optical signal processing and for optical communications. The optically controlled laser rate equations, the gain, and the wavelength-dependent transfer function are derived from the Liouville equation for the density matrix describing a system with multiple perturbing optical fields. The results explain the primary effects of coherent and noncoherent control signals upon the output of the main laser (illustrated with experimental data). Predictions are obtained for optical gain, wavelength conversion, and FM-to-AM demodulation.</jats:p>
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match_str parker1998thewavelengthdependenttransferfunctionforopticallycontrolledsemiconductorlasers
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physical 5056-5060
publishDate 1998
publishDateSort 1998
publisher AIP Publishing
record_format ai
recordtype ai
series Journal of Applied Physics
source_id 49
spelling Parker, M. A. Shire, D. B. 0021-8979 1089-7550 AIP Publishing General Physics and Astronomy http://dx.doi.org/10.1063/1.367322 <jats:p>The optically controlled laser, consisting of a main semiconductor laser with an associated control beam, is important for integrated high-speed optical signal processing and for optical communications. The optically controlled laser rate equations, the gain, and the wavelength-dependent transfer function are derived from the Liouville equation for the density matrix describing a system with multiple perturbing optical fields. The results explain the primary effects of coherent and noncoherent control signals upon the output of the main laser (illustrated with experimental data). Predictions are obtained for optical gain, wavelength conversion, and FM-to-AM demodulation.</jats:p> The wavelength-dependent transfer function for optically controlled semiconductor lasers Journal of Applied Physics
spellingShingle Parker, M. A., Shire, D. B., Journal of Applied Physics, The wavelength-dependent transfer function for optically controlled semiconductor lasers, General Physics and Astronomy
title The wavelength-dependent transfer function for optically controlled semiconductor lasers
title_full The wavelength-dependent transfer function for optically controlled semiconductor lasers
title_fullStr The wavelength-dependent transfer function for optically controlled semiconductor lasers
title_full_unstemmed The wavelength-dependent transfer function for optically controlled semiconductor lasers
title_short The wavelength-dependent transfer function for optically controlled semiconductor lasers
title_sort the wavelength-dependent transfer function for optically controlled semiconductor lasers
title_unstemmed The wavelength-dependent transfer function for optically controlled semiconductor lasers
topic General Physics and Astronomy
url http://dx.doi.org/10.1063/1.367322