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2 August 1982 Intrinsic Bistable Guided-Wave Devices: Theory And Applications
Dror Sarid
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Proceedings Volume 0317, Integrated Optics and Millimeter and Microwave Integrated Circuits; (1982) https://doi.org/10.1117/12.933095
Event: Integrated Optics and Millimeter and Microwave Integrated Circuits, 1981, Huntsville, United States
Abstract
Novel all-optical signal processing devices can be realized by utilizing optical power-dependent refractive-index materials in guided-wave resonators. The resonators are channel waveguide structures that obtain their feedback by means of cleaved mirrors, a corrugation, or a ring geometry. The nonlinear material can be part of the waveguide, of the cladding, or both. As the power carried by the guided wave in the resonator is increased, the effective refractive index of the waveguide changes, the optical path length is modified, and the resonator switches between transmission and reflection states. As a result, the resonator exhibits optical hysteresis, and acts as an intrinsic bistable device. We present the general theory of power-dependent refractive-index waveguides, and apply the theory to some devices that can serve as all-optical signal processors, such as optical amplifiers, discriminators and memory devices.
© (1982) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
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Dror Sarid "Intrinsic Bistable Guided-Wave Devices: Theory And Applications", Proc. SPIE 0317, Integrated Optics and Millimeter and Microwave Integrated Circuits, (2 August 1982); https://doi.org/10.1117/12.933095
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KEYWORDS
Waveguides
Resonators
Refractive index
Channel waveguides
Wave propagation
Mirrors
Signal processing
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