Abstract
Recent advances in semiconductor photonic functional devices based on the nonlinearities of laser diodes (LDs) are reviewed. Because the current research is driven primarily by the needs of optical fiber communications systems, most devices are made of InGaAsP and operate at wavelengths of between 1.3 and 1.55 mu m, the wavelength window in which optical fibers have their most favorable properties. Minimum loss is at 1.55 mu m, and zero dispersion is at 1.3 mu m. AlGaAs devices operating at around 0.85 mu m have also been reported. Two types of optical bistability-absorptive and dispersive-are explained, and devices based on them are described. Switching characteristics of bistable devices are discussed. Tunable wavelength converters and filters are also examined. Applications to all-optical communication and to optical switching systems are considered. Directions for future development are indicated. >
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