Title :
32 Gb/s optical soliton data transmission over 90 km
Author :
Andrekson, P.A. ; Olsson, N.A. ; Haner, M. ; Simpson, J.R. ; Tanbun-Ek, T. ; Logan, R.A. ; Coblentz, D. ; Presby, H.M. ; Wecht, K.W.
Author_Institution :
AT&T Bell Lab., Murray Hill, NJ, USA
Abstract :
The authors demonstrate error-free optical soliton transmission at 32 Gb/s over 90 km of dispersion-shifted fiber. Fiber loss was compensated for by using diode laser pumped Er/sup 3+/-doped fiber amplifiers located every 30 km and a 4 Gb/s data pattern was passively multiplexed to 32 Gb/s. Approximately 16-ps-wide, near transform-limited pulses were launched into the system and the output pulsewidth was about 14 ps. At the receiver, four-wave mixing was employed to perform all optical demultiplexing of the data down to the base data rate. At a 10/sup -9/ (2/sup 15/-1 word length) bit-error rate, the penalties from the demultiplexing and the 90-km soliton transmission were approximately 1.6 and 0.5 dB, respectively.<>
Keywords :
multiplexing; multiwave mixing; optical links; receivers; solitons; 14 ps; 16 ps; 30 km; 32 Gbit/s; 4 Gbit/s; 90 km; base data rate; bit-error rate; data pattern; diode laser pumped Er/sup 3+/-doped fiber amplifiers; dispersion-shifted fiber; error-free optical soliton transmission; fibre loss compensation; four-wave mixing; near transform-limited pulses; optical demultiplexing; optical soliton data transmission; output pulsewidth; passively multiplexed; receiver; Data communication; Demultiplexing; Diode lasers; Erbium; Laser excitation; Optical fiber losses; Optical pulses; Optical receivers; Optical solitons; Pulse amplifiers;
Journal_Title :
Photonics Technology Letters, IEEE
