Designing Novel Photonic Devices by Bio-Inspired Computing

Designing Novel Photonic Devices by Bio-Inspired Computing

Three bio-inspired optimization schemes, integrated into a robust frequency domain 2-D finite-element code, have been assessed by the design of two novel nonintuitive photonic crystal-type devices: an unbalanced power splitter and a micro-to-nano waveguide coupler. The bio-inspired schemes were take...

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Veröffentlicht in:IEEE photonics technology letters 2010-08, Vol.22 (15), p.1177-1179
Hauptverfasser: da Silva Santos, C H, Gonçalves, M S, Hernández-Figueroa, H E
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Bio-inspired computing
Biological information theory
Biology computing
Conferences
Design engineering
Design optimization
Devices
Evolution (biology)
Fiber optics
Finite element methods
finite-element method
frequency domain
Frequency domain analysis
Genetic algorithms
Optical computing
Optical fibers
Photonic crystals
photonic crytals
photonic devices
Photonics
Power splitters
Robustness
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Zusammenfassung:Three bio-inspired optimization schemes, integrated into a robust frequency domain 2-D finite-element code, have been assessed by the design of two novel nonintuitive photonic crystal-type devices: an unbalanced power splitter and a micro-to-nano waveguide coupler. The bio-inspired schemes were taken from three biological-based classes of algorithms: genetic algorithm, evolution strategy, and artificial immune system. The results show that such schemes constitute valuable and powerful tools for the design of advanced and sophisticated photonic devices, where pixels concept was changed by photonic crytals structures to enable their future fabrication.
ISSN:1041-1135
1941-0174
DOI:10.1109/LPT.2010.2051222