GaAs/InGaAs Optoelectronic Switch for Triple-Logic Applications

Kao Feng Yarn; Ming Ju Yang; Wen Chung Chang

doi:10.4028/www.scientific.net/AMR.459.40

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Study on Thermal Protection Materials Applied to Electronic Memory Embed in Aircraft
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Image Segmentation Based on Facet Model Fitting
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GaAs/InGaAs Optoelectronic Switch for Triple-Logic Applications
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Preparation of a Polyclonal Antibody Based Indirect Competitive ELISA for Enrofloxacin Residue
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Zero-Voltage-Switching Buck-Boost Converter with a Coupled Inductor Based on Magnetic Materials
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Preparation and Immunological Traits of Monoclonal Antibody against Sarafloxacin
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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 459GaAs/InGaAs Optoelectronic Switch for Triple-Logic...

GaAs/InGaAs Optoelectronic Switch for Triple-Logic Applications

Abstract:

A new GaAs/InGaAs triangular barrier optoelectronic switch combined with tri-state characteristic is fabricated and demonstrated. Two GaAs/InGaAs barriers are employed to provide potential barriers for electron thermionic emission and hole confinement, respectively. Applying a sufficient DC voltage to this device, a double S-shaped negative differential resistance (NDR) phenomenon with nearly equal switching voltage difference is appeared at room temperature. This unique NDR property can be introduced to triple stable regions into the device circuit design. Based on a proper circuit design with suitable load line, the studied device has potential for triple-logic applications.