SOA-Based WDM Metro Ring Networks With Link Control Technologies

We experimentally study the performance of wavelength-division-multiplexing (WDM) metro/access ring networks, based on semiconductor optical amplifiers (SOAs), considering several gain control techniques. We show that gain control through link-control (LC) channel or amplified spontaneous emission (ASE) power recirculation, effectively used in erbium-doped fiber amplifier-based WDM ring networks, introduces serious penalties due to intensity noise transfer, and cannot be used in short-span SOA-based WDM rings. On the other hand, we observe a net benefit using LC channel and ASE extraction for short span rings and a limited WDM channel number, compared with linear operating conditions. An effective optical signal-to-noise ratio improvement of 2.1 dB has been achieved with LC channel extraction with respect to linear operation, for a 4 x 13.5 dB span ring with eight WDM channels. For spans longer than 15 dB, system performance in gain-controlled rings is found to be similar to noncontrolled ones.

[1]  A. Poustie Semiconductor devices for all-optical signal processing , 2005 .

[2]  Jean-Yves Emery,et al.  Polarisation-insensitive clamped-gain SOA with integrated spot-size convertor and DBR gratings for WDM applications at 1.55 /spl mu/m wavelength , 1996 .

[3]  M. Shtaif,et al.  Signal-to-noise-ratio degradation caused by polarization-dependent loss and the effect of dynamic gain equalization , 2004, Journal of Lightwave Technology.

[4]  E. Tangdiongga,et al.  Static and dynamic switching performance of a metro WDM ring using linear optical amplifiers , 2002, IEEE Photonics Technology Letters.

[5]  N. S. Bergano,et al.  Margin measurements in optical amplifier system , 1993, IEEE Photonics Technology Letters.

[6]  A. Jourdan,et al.  High performance optical wavelength shifter , 1992 .

[7]  A. Bogoni,et al.  Design and experimental characterization of EDFA-based WDM ring networks with free ASE light recirculation and link control for network survivability , 2005, Journal of Lightwave Technology.

[8]  L. D. Garrett,et al.  DWDM transmission of thirty two 10 Gbit/s channels through 160 km link using semiconductor optical amplifiers , 2000 .

[9]  M.J.H. Sander-Jochem,et al.  8 x 10 Gb/s DWDM transmission over 240 km of standard fiber using a cascade of semiconductor optical amplifiers , 2000, IEEE Photonics Technology Letters.

[10]  D.A. Francis,et al.  A single-chip linear optical amplifier , 2001, OFC 2001. Optical Fiber Communication Conference and Exhibit. Technical Digest Postconference Edition (IEEE Cat. 01CH37171).

[11]  P.S. Cho,et al.  Suppression of cross-gain modulation in SOA using RZ-DPSK modulation format , 2003, IEEE Photonics Technology Letters.