Transmission performance of WDM/OFDM hybrid systems over optical fibers

For realizing wavelength-division multiplexing WDM transmission systems, one of the most important devices is the er-( ) bium-doped fiber amplifier EDFA , which exhibits a flat gain, a ( ) high pumping efficiency, and a low noise figure NF . To meet these requirements, we have optimized the hybrid E

Figure 3 Comparison of computed and reconstructed normalized Ž . Ž . electric field with SNR s 20 dB. a Real part, b imaginary part with SNR s 20 dB have no significant difference with the computed results in the frequency band 1᎐100 GHz, as shown in Figure 3. Therefore, the scattering model obtain

We ecaluated the performance of transmission systems operating at 1.3 p m in linkz encompassing standard single-mode jibers and in-line semiconductor optical ampl$ers. Intensity-and polarized-modulated .systems are compared in terms of Q factor for soliton and NRZ signals at different bit rates and

## Abstract We report on an implementation of a Radio over Fiber system based on IEEE 802.15.4 standard in a geographically distributed optical network. The system performance was analyzed under real conditions of temperature, pressure, humidity, and wind. Experimental results show no signal degrad