Author_Institution :
IEEE Spectrum, New York, NY, USA
Abstract :
Solitons, ultrastable light pulses that could revolutionize long-haul, fiber-optic communications and perhaps even optical switching, are discussed. Two classes of solitons are described. Temporal solitons, pulses of light that resist a medium´s chromatic dispersion, or tendency to broaden them in time, have been known for a while. They offer the possibility of all-optical communication systems transmitting signals thousands of kilometers. Erbium-doped fiber amplifiers provide an all-optical form of soliton amplification that brings such lightwave systems closer to reality. Spatial solitons, which are actually light beams that travel through a planar waveguide without self-focusing or spreading, were observed for the first time last year and might eventually prove useful for optical switching.<>
Keywords :
nonlinear optics; optical communication; optical fibres; optical switches; solitons; chromatic dispersion; fiber-optic communications; optical switching; planar waveguide; spatial solitons; temporal solitons; Chromatic dispersion; Communication switching; Erbium-doped fiber amplifier; Optical fiber communication; Optical pulses; Optical solitons; Optical waveguides; Pulse amplifiers; Resists; Stimulated emission;
