Strategy of Search and Refinement by GA in 2-D Photonic Crystals With Absolute PBG

The finite element method (FEM) and the genetic algorithm (GA) have been used to solve the inverse problem involving absolute photonic band gap (PBG) searching and optimization. Square and triangular lattices composed by Tellurium (anisotropic material) and air have been analyzed. In order to avoid...

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Veröffentlicht in:	IEEE journal of quantum electronics 2011-04, Vol.47 (4), p.431-438
Hauptverfasser:	Malheiros-Silveira, G N, Rodriguez-Esquerre, V F, Hernandez-Figueroa, Hugo E
Format:	Artikel
Sprache:	eng
Schlagworte:	Anisotropic optical materials Biological cells finite element method Finite element methods Gallium genetic algorithms Lattices Optimization photonic band gap photonic crystals Tellurium
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container_title	IEEE journal of quantum electronics
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creator	Malheiros-Silveira, G N Rodriguez-Esquerre, V F Hernandez-Figueroa, Hugo E
description	The finite element method (FEM) and the genetic algorithm (GA) have been used to solve the inverse problem involving absolute photonic band gap (PBG) searching and optimization. Square and triangular lattices composed by Tellurium (anisotropic material) and air have been analyzed. In order to avoid the requirements of high computational efforts and resources needed in these kind of tasks, the PBGs have been computed only at key positions along the first region of Brillouin and we obtained absolute midgap ratio, considering PBGs between the TE 1-2 and TM 3-4 modes, of 18.00% and 23.49% for the square and triangular lattices, respectively.
doi_str_mv	10.1109/JQE.2010.2091107
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subjects	Anisotropic optical materials Biological cells finite element method Finite element methods Gallium genetic algorithms Lattices Optimization photonic band gap photonic crystals Tellurium
title	Strategy of Search and Refinement by GA in 2-D Photonic Crystals With Absolute PBG
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