Title :
Polarization-independent transmission on a single mode fiber using coherence modulation of light
Author :
Goedgebuer, Jean-Pierre ; Ferriere, Richard ; Hamel, Andre
Author_Institution :
Lab. d´´Optique, Univ. de Franche-Comte, Besancon, France
fDate :
8/1/1991 12:00:00 AM
Abstract :
A polarization-independent transmission link on a single mode fiber at 1300-nm wavelength is demonstrated using coherence multiplexing. The use of a source with a very short coherence length (about 200 μm) allows an easy implementation of the suitable optical delays (some millimeters) using LiNbO3 modulators matched to fiber interferometers. Experiments were conducted with transmission of analog signals and baseband TV signals on a 2500-m-long single mode fiber. The polarization-independence of the method is obtained at the cost of relatively high losses. The high losses are introduced by the interferometers that are required at both ends of the link (theoretical losses of -3 dB/interferometer). They are physically inherent in the coding and detection process, which requires optical delays greater than the coherence length, and hence cannot be decreased
Keywords :
light coherence; light interferometers; multiplexing; optical links; optical losses; optical modulation; video signals; 1300 nm; 2500 m; LiNbO3 modulators; analog signals; baseband TV signals; coding; coherence modulation; coherence multiplexing; detection process; fiber interferometers; high losses; light modulation; optical delays; optical fibre links; polarization-independent transmission link; short coherence length; single mode fiber; Baseband; Coherence; Costs; Delay; Interferometers; Optical fiber polarization; Optical interferometry; Optical losses; Optical modulation; TV;
Journal_Title :
Quantum Electronics, IEEE Journal of
