Title :
Densely-spaced FDM coherent star network with optical signals frequency-locked to comb of equally-spaced frequencies
Author :
Glance, B. ; Pollock, K.J. ; Fitzgerald, P.J. ; Burrus, C.A. ; Kasper, B.L. ; Stone, J. ; Stultz, L.W.
Author_Institution :
AT&T Bell Lab., Holmdel, NJ, USA
Abstract :
Results obtained using a fiber optical star network using densely-spaced frequency-division multiplexing (FDM) and heterodyne detection techniques are presented. The system consists of three optical sources frequency-shift keyed at 45 Mb/s and spaced by 300 MHz. Frequency selection of the desired channel is done by a heterodyne FM receiver at a bit-error rate of 10/sup -9/ is -61 dBm or 113 photons/b, which is 4.5 dB from the shot-noise limit. Cochannel interference is found negligible for this channel spacing and modulation rate. Frequency stabilization of the FDM signals to a comb of equally-spaced frequencies, imperative in such a densely-spaced FDM system, is also demonstrated. The results indicate that this system can provide a throughput of 4500 Gb/s.<>
Keywords :
frequency division multiplexing; optical fibres; optical links; 300 MHz; 45 Mbit/s; FDM coherent star network; fiber optical; frequency-shift keyed; heterodyne detection; interference; shot-noise limit; Frequency shift keying; Low pass filters; Optical fiber networks; Optical fiber polarization; Optical filters; Optical mixing; Optical modulation; Optical noise; Optical receivers; Optical variables control;
Conference_Titel :
Communications, 1988. ICC '88. Digital Technology - Spanning the Universe. Conference Record., IEEE International Conference on
Conference_Location :
Philadelphia, PA, USA
DOI :
10.1109/ICC.1988.13745
