Title :
Optical Stabilization of Waveguide Amplifiers for WDM Ring Network With Recirculating Optical Power
Author :
Ennser, K. ; Taccheo, S. ; Rogowski, T. ; Shmulovich, J.
Author_Institution :
Wales Univ., Swansea
fDate :
7/1/2007 12:00:00 AM
Abstract :
We demonstrate an all-optical wavelength-division-multiplexing ring network immune to transients based on individual optically gain clamped waveguide amplifiers. The ring network is compared to a similar point-to-point configuration to quantify the effect of recirculating amplifier noise. In the results, we notice that the optical stabilization is strong enough to overcome the effect of accumulated amplifier noise over the entire transmission bandwidth, and no lasing or chaotic behavior occurs. In addition, due to the independent amplifier stabilization, the network has shown to be robust even in the case of failure and restoration. We prove that the obtained results are scalable with the amplifier number. All results are also applicable to fiber-based amplifiers.
Keywords :
erbium; laser noise; laser stability; optical fibre amplifiers; optical fibre networks; optical transmitters; telecommunication network reliability; wavelength division multiplexing; WDM ring network; all-optical wavelength-division-multiplexing ring network; failure case; fiber-based amplifiers; optical stabilization; optically gain clamped waveguide amplifiers; recirculating amplifier noise effects; recirculating optical power; restoration case; transient dynamics; transient immunity; transmission bandwidth; Bandwidth; Optical amplifiers; Optical fiber networks; Optical noise; Optical waveguides; Power amplifiers; Semiconductor optical amplifiers; Stimulated emission; WDM networks; Wavelength division multiplexing; Erbium-doped amplifiers; optical networks; transient dynamics; waveguide amplifiers;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2007.897729
