Genetic algorithm for band gap optimization under light line in two-dimensional photonic crystals

W. Jia, Liyong Jiang, Hipeng Li, G. Zheng, Xiang-yin Li, Yuan Jun
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引用次数: 6

Abstract

An optimization algorithm is used to design two-dimensional photonic crystals in hexagonal lattice for large absolute band gaps under light line. By optimizing the location and radius of circular hole in the unit cell, we present four designs considering different circular hole numbers. The genetic algorithm finally yielded a photonic crystal with an absolute common band gap of 0.0796(2πc/a) at the mid-frequency of 0.3712(2πc/a).
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二维光子晶体光线下带隙优化的遗传算法
采用优化算法设计了光线下大绝对带隙的二维六边形晶格光子晶体。通过优化圆孔在晶胞中的位置和半径,提出了考虑不同圆孔数的四种设计方案。遗传算法最终得到了在中频0.3712(2πc/a)处绝对共带隙为0.0796(2πc/a)的光子晶体。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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