Title :
Transmission limitations due to self-phase modulation in optical PSK heterodyne detection systems employing chromatic dispersion equalization
Author :
Takachio, Noboru ; Norimatsu, Seiji ; Iwashita, Katsushi ; Yonenaga, Kazushige
Author_Institution :
NTT Transmission Syst. Labs., Kanagawa, Japan
fDate :
2/1/1994 12:00:00 AM
Abstract :
Even if the amplitude of a phase-modulated optical signal is constant before transmission, amplitude modulation is caused by fiber chromatic dispersion. As a result, self-phase modulation (SPM) is induced. In optical heterodyne detection, SPM cannot be compensated for by the delay equalizer (electrical domain) used to compensate fiber chromatic dispersion. However, the transmission distance limitation of multi-repeatered coherent transmission systems has not been investigated in the presence of SPM. This paper theoretically and experimentally investigates the transmission distance achievable with a phase-shift-keying (PSK) heterodyne detection system employing in-line optical amplifiers and delay equalization. The calculated results show that equalization is effective when γP0/2B2|β2|<10 in the normal dispersion regime, and γP0/2B2|β 2|<15 in the anomalous dispersion regime. Furthermore, the increase in transmission distance achieved by using equalization is experimentally shown in an 8 Gb/s PSK heterodyne transmission experiment using a conventional single-mode (SM) fiber and in-line fiber amplifiers
Keywords :
demodulation; optical dispersion; optical fibres; optical links; optical modulation; phase shift keying; 8 Gbit/s; SPM; amplitude modulation; anomalous dispersion regime; chromatic dispersion equalization; delay equalization; delay equalizer; fiber chromatic dispersion; in-line fiber amplifiers; in-line optical amplifiers; multi-repeatered coherent transmission systems; normal dispersion regime; optical PSK heterodyne detection systems; optical heterodyne detection; phase-modulated optical signal amplitude; phase-shift-keying; self-phase modulation; single-mode fiber; transmission distance; transmission distance limitation; transmission limitations; Amplitude modulation; Chromatic dispersion; Delay; Fiber nonlinear optics; Nonlinear optics; Optical detectors; Optical mixing; Optical modulation; Phase shift keying; Scanning probe microscopy;
Journal_Title :
Lightwave Technology, Journal of
