Title :
Fourth-order dispersion compensation for 250-fs pulse transmission over 139-km optical fiber
Author :
Pelusi, M.D. ; Wang, X. ; Futami, F. ; Kikuchi, K. ; Suzuki, A.
Author_Institution :
Femtosecond Technol. Res. Assoc., Tsukuba, Japan
fDate :
7/1/2000 12:00:00 AM
Abstract :
Record distance transmission of 250-fs pulses over 139-km optical fiber at 6-GHz repetition is realized by compensating chromatic dispersion up to fourth-order using a novel approach. The link is designed combining 108.5-km standard single-mode fiber (SMF), 17.5-km dispersion-shifted fiber, and 13-km negative-slope dispersion-compensating fiber to achieve both zero total chromatic dispersion and slope at the 1.55-μm carrier. Fourth-order pulse dispersion caused by the fiber dispersion curvature around 1.55 μm is then suppressed by adding the quadratic phase of opposite sign from excess SMF to produce 503-fs output. However, both higher quality and shorter 390-fs output is achieved after applying 6-GHz electrooptic phase modulation (3.5 /spl pi/ O-peak) to prestretched pulses and adding a further 50-m SMF to the link.
Keywords :
electro-optical modulation; optical fibre communication; optical fibre dispersion; optical pulse generation; optical pulse shaping; phase modulation; 1.55 mum; 108.5 km; 13 km; 139 km; 17.5 km; 250 fs; 390 fs; 50 m; 503 fs; 6 GHz; O-peak; chromatic dispersion; chromatic dispersion compensation; dispersion-shifted fiber; distance transmission; electrooptic phase modulation; fiber dispersion curvature; fourth-order dispersion compensation; fourth-order pulse dispersion; link; negative-slope dispersion-compensating fiber; optical fiber; output; prestretched pulses; pulse transmission; quadratic phase; slope; standard single-mode fiber; zero total chromatic dispersion; Chromatic dispersion; Optical fiber dispersion; Optical fibers; Optical modulation; Optical propagation; Optical pulse shaping; Optical pulses; Phase modulation; Pulse modulation; Ultrafast optics;
Journal_Title :
Photonics Technology Letters, IEEE
