论文信息 - Performance of cascaded misaligned optical (de)multiplexers in multiwavelength optical networks

Performance of cascaded misaligned optical (de)multiplexers in multiwavelength optical networks

We use computer simulation techniques to evaluate the limitations on laser misalignment tolerances for multiwavelength optical networks with a cascade of 2 to 100 (de)multiplexers modelled as either first-order filters or third-order Butterworth filters. The results are dependent on the number of (de)multiplexers used, on the bit rate, and on the filter characteristics. We find that both the magnitude and the phase characteristics of the (de)multiplexer transfer function are important in determining the distortion-induced penalties. The allowable laser misalignment tolerances, at 10 Gb/s and for systems using (de)multiplexers modelled as third-order Butterworth filters, vary from /spl plusmn/78 GHz (/spl plusmn/0.63 nm) for systems with a cascade of 2 filters to /spl plusmn/18 GHz (/spl plusmn/0.15 nm) for systems with a cascade of 100 filters.

A.F. Elrefaie | S. Ahmed | R.E. Wagner | N.N. Khrais

[1] Adel A. M. Saleh. Overview of the MONET, Multiwavelength Optical Networking, program , 1996, Optical Fiber Communications, OFC..

[2] R. E. Wagner,et al. Performance degradation of multiwavelength optical networks due to laser and (de)multiplexer misalignments , 1995, IEEE Photonics Technology Letters.

[3] T. Kurokawa,et al. A tunable polarization-independent liquid-crystal Fabry-Perot interferometer filter , 1992, IEEE Photonics Technology Letters.

[4] R. S. Vodhanel,et al. Comparison of gain control techniques to stabilize EDFAs for WDM networks , 1996, Optical Fiber Communications, OFC..

[5] Richard E. Wagner,et al. Effect of cascaded misaligned optical (de)multiplexers on multiwavelength optical network performance , 1996, Optical Fiber Communications, OFC..