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Journal article

Demonstration of Broadcast Transmission, and Wavelength Conversion Functionalities Using Photonic Crystal Fibers

By Zsigri, Beata1,2; Peucheret, Christophe1,2; Nielsen, Martin Dybendal; Jeppesen, Palle1,2

From

Optical Transmission and Network Elements, Department of Photonics Engineering, Technical University of Denmark1

Department of Photonics Engineering, Technical University of Denmark2

Broadcasting functionality using cross-phase modulation in a nonlinear optical loop mirror utilizing 100-m highly nonlinear (HNL) photonic crystal fiber (PCF) as nonlinear element is demonstrated. This work presents entirely PCF-based network functionalities including broadcasting, transmission, and wavelength conversion.

Broadcasting on four channels, transmission of one selected channel through one partially dispersion compensated 10.4-km PCF transmission link and wavelength conversion using four-wave mixing in a 50-m HNL-PCF at the ingress of the target subnetwork have been successfully demonstrated.

Language: English
Publisher: IEEE
Year: 2006
Pages: 2290-2292
ISSN: 19410174 and 10411135
Types: Journal article
DOI: 10.1109/LPT.2006.884736
ORCIDs: Jeppesen, Palle
Keywords

10.4 km 50 m All-optical network Broadcasting Fiber nonlinear optics High speed optical techniques Optical fiber communication Optical mixing Optical modulation Optical pulse generation Optical signal processing Optical wavelength conversion PCF transmission link Photonic crystal fibers broadcasting broadcasting functionality channels cross-phase modulation four-wave mixing multiwave mixing nonlinear optical loop mirror optical fibre communication optical fibre dispersion optical modulation optical wavelength conversion partially dispersion compensation phase modulation photonic crystal fiber (PCF) photonic crystal fibers photonic crystals telecommunication channels wavelength conversion

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