Impact of semiconductor optical amplifier nonlinear gain over 16-QAM optical signals at 40 and 100 Gbit/s

Nonlinear phase-drift on 16-QAM optical signals due to semiconductor optical amplifier gain saturation were measured for two devices-a linear and a nonlinear one-considering the input optical power and the net optical gain. The signal when amplified by the nonlinear device is marred even for low P-in (-20 dBm), and for moderate input powers (-15 dBm) signal quality stays always above the forward error correction (FEC) limit (error vector magnitude = 16%). The nonlinear device as expected induced more degradation, being able to operate fairly just for small gain and input power; for moderate gain (12 dB), the amplified signals stay always above the FEC limit. The linear device showed fair operation even for moderate P-in = -15 dBm, working under FEC limit for OSNR (at Rx) higher than 16.5 dB for 10 Gbaud, and higher than 20 dB for 25 Gbaud, with small penalties (<2 dB) in relation to the back-to-back configuration. (C) 2018 Society of Photo-Optical Instrumentation Engineers (SPIE) (AU)