Double-stage cross-gain modulation in SOAs: an effective technique for WDM multicasting

Author

Contestabile, G. ; Calabretta, N. ; Proietti, R. ; Ciaramella, E.

Author_Institution

Scuola Superiore Sant´´Anna, Pisa, Italy

Volume

18

Issue

1

fYear

2006

Firstpage

181

Lastpage

183

Abstract

We experimentally demonstrate an optical circuit capable of multiwavelength conversion. The circuit structure is intrinsically stable and polarization independent. It may thus be a practical solution for wavelength-division multiplexing multicasting applications. Its working principle relies on synchronous double-stage cross-gain modulation in SOAs between an incoming data-modulated signal and several local continuous wave lasers. We report the simultaneous wavelength conversion of an input 10Gb/s nonreturn-to-zero to eight 200-GHz-spaced output channels. The obtained signals show only a moderate optical signal-to-noise ratio penalty.

Keywords

multicast communication; optical communication equipment; optical fibre communication; optical modulation; optical wavelength conversion; semiconductor optical amplifiers; telecommunication channels; wavelength division multiplexing; 10 Gbit/s; 200 GHz; SOA; WDM multicasting; continuous wave lasers; cross-gain modulation; data-modulated signal; double-stage modulation; multiwavelength conversion; nonreturn-to-zero channels; optical circuit; optical signal-to-noise ratio penalty; synchronous modulation; Circuits; Optical distortion; Optical interferometry; Optical modulation; Optical polarization; Optical wavelength conversion; Semiconductor optical amplifiers; Stimulated emission; Telecommunication traffic; Wavelength division multiplexing; Cross-gain compression; semiconductor optical amplifier (SOA); wavelength conversion; wavelength-division multiplexing (WDM) multicasting;

fLanguage

English

Journal_Title

Photonics Technology Letters, IEEE

Publisher

ieee

ISSN

1041-1135

Type

jour

DOI

10.1109/LPT.2005.861626

Filename

1561325