Abstract
The mathematical models for the CAD-platform of plasmonic circuits design have been developed. This platform provides the efficient framework for computer-aided design of semiconductor quantum dots and full-field electromagnetic simulation of surface plasmon-polariton propagation in plasmonic waveguides. The topology of an all-plasmonic devices based on graphene layers and quantum dots is proposed for the first time.
Highlights
The main purpose of this work is the development and software implementation of mathematical models and numerical algorithms as the basis for creating an Computer-Aided Design Platform (CAD) to design the plasmonic circuits
The mathematical models for the CAD-platform of plasmonic circuits design have been developed. This platform provides the efficient framework for computer-aided design of semiconductor quantum dots and full-field electromagnetic simulation of surface plasmon-polariton propagation in plasmonic waveguides
The topology of an all-plasmonic devices based on graphene layers and quantum dots is proposed for the first time
Summary
The main purpose of this work is the development and software implementation of mathematical models and numerical algorithms as the basis for creating an Computer-Aided Design Platform (CAD) to design the plasmonic circuits. The mathematical models for the CAD-platform of plasmonic circuits design have been developed.
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