A Novel 2D Genetic Algorithm for Band Gap Optimization of Two-Dimensional Photonic Crystals
Paper in proceeding, 2006
By using a novel 2D genetic algorithm, the band gaps of two-dimensional (2D) photonic crystals are maximized. In this procedure the unit cell is divided into small grids. Each filling pattern of the grids is translated into a matrix of binary elements. A novel crossover and mutation operator is developed to obtain structures with maximum relative band gaps. By applying the proposed operator, the required number of generations is extremely reduced. In addition, a semi-analytical method is introduced for calculating the photonic crystal band structures. Because of this efficient method, the required computation time of the fitness function is significantly reduced. The paper presents two optimized photonic crystal structures with a relative band gap of 21%.
Photonic crystals
Genetic algorithms
photonic band gap
Author
Zahra Ghatan
Aria Fallahi
Behrooz Makki
Chalmers, Signals and Systems, Communication, Antennas and Optical Networks
Mahmood Shahabadi
Carl Lucas
Fatemeh Bahrami
IEEE World Congress on Evolutionary Computation
Vol. 1 1 3231 - 3235
0-7803-9487-9 (ISBN)
Subject Categories
Electrical Engineering, Electronic Engineering, Information Engineering
ISBN
0-7803-9487-9