Microwave signals generated by optical heterodyne between injection-locked semiconductor lasers

Single-mode-laser rate equations with added Langevin noise sources are used to study injection-locked semiconductor lasers. Two slave lasers are frequency-locked on the same or different sidebands of a current-modulated master laser. The optical heterodyne between the two secondary lasers is charact...

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Published in:IEEE journal of quantum electronics 1997-06, Vol.33 (6), p.989-998
Main Authors: Genest, J., Chamberland, M., Tremblay, P., Tetu, M.
Format: Article
Language:English
Subjects:
Equations
Exact sciences and technology
Frequency
Fundamental areas of phenomenology (including applications)
Laser modes
Laser noise
Lasers
Masers
Microwave generation
Optical mixing
Optical noise
Optics
Physics
Semiconductor lasers
Semiconductor lasers
laser diodes
Signal generators
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cited_by cdi_FETCH-LOGICAL-c370t-8bdfb6cbea1027b5272c10628b5ee6c9ebb69c6d8b5f7235cdc490f6b874a6a93
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container_end_page 998
container_issue 6
container_start_page 989
container_title IEEE journal of quantum electronics
container_volume 33
creator Genest, J.
Chamberland, M.
Tremblay, P.
Tetu, M.
description Single-mode-laser rate equations with added Langevin noise sources are used to study injection-locked semiconductor lasers. Two slave lasers are frequency-locked on the same or different sidebands of a current-modulated master laser. The optical heterodyne between the two secondary lasers is characterized. It is demonstrated that the frequency stability of the source modulating the master laser is preserved on the sidebands and partially transferred to the slaves. A linear model is first investigated. Static operation conditions and small-signal behavior are then calculated. Direct simulation of the rate equations for each laser is next achieved. This highlights the validity domain and limitations of the linear model. A more complete set of results-such as laser and heterodyne spectra-is also obtained. It is moreover shown that synchronization of the slave laser diodes by optical injection-locking leads to strongly correlated, while not identical, laser fields. Finally, simulation results are compared to experimental data.
doi_str_mv 10.1109/3.585487
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source IEEE Electronic Library (IEL) Journals
subjects Equations
Exact sciences and technology
Frequency
Fundamental areas of phenomenology (including applications)
Laser modes
Laser noise
Lasers
Masers
Microwave generation
Optical mixing
Optical noise
Optics
Physics
Semiconductor lasers
Semiconductor lasers
laser diodes
Signal generators
title Microwave signals generated by optical heterodyne between injection-locked semiconductor lasers
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