Conference on Optical Fiber Communication/International Conference on Integrated Optics and Optical Fiber Communication
1993 OSA Technical Digest Series (Optica Publishing Group, 1993),
paper ThL8
•https://doi.org/10.1364/OFC.1993.ThL8

Optimization of directly modulated FM-SCM systems using an optical frequency discriminator

C. Fiksman, R. Gross, J. Fan, and L. Kazovsky

Optical Fiber Communication Conference 1993

San Jose, California United States
ISBN: 1-55752-282-0

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Conference on Optical Fiber Communication/International Conference on Integrated Optics and Optical Fiber Communication, Vol. 4 of 1993 OSA Technical Digest Series (Optica Publishing Group, 1993), paper ThL8.%0Ahttps://opg.optica.org/abstract.cfm?URI=OFC-1993-ThL8%0A---------------------------------------------------------------------------%0AThis is sent to you as an email notification feature from Optica Publishing Group: https://opg.optica.org" aria-label="Mail icon">
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C. Fiksman, R. Gross, J. Fan, and L. Kazovsky, "Optimization of directly modulated FM-SCM systems using an optical frequency discriminator," in Conference on Optical Fiber Communication/International Conference on Integrated Optics and Optical Fiber Communication, Vol. 4 of 1993 OSA Technical Digest Series (Optica Publishing Group, 1993), paper ThL8.

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Abstract

Direct frequency modulation of a distributed-feedback (DFB) semiconductor laser is an attractive technique because it can obtain high modulation depths with low drive powers. For direct-detection systems an optical frequency, discriminator must precede the photodetector. Systems that use optical filters as frequency discriminators are also well suited for wavelength- division-multiplexing (WDM) applications with optical amplifiers.^1,2 Then, the optical filter also reduces the amplified-sponta- neous-emission (ASE) noise and provides wavelength selectivity. In this paper we report the use of a tunable fiber Fabry-Perot (FFP) interferometer as an optical frequency discriminator for a 10-channel FSK-SCM system in the frequency range 2.1-3.9 GHz. We have developed, to our knowledge, the first comprehensive models of the FFP response to an optical FM signal that accurately predict the optimal system parameters and performance.

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Optimization of directly modulated FM-SCM systems using an optical frequency discriminator

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Abstract

Optical Fiber Communication Conference 1993