Title :
Sloped-wall thin-film photonic crystal waveguides
Author :
Monsoriu, Juan A. ; Silvestre, Enrique ; Ferrando, Albert ; Andrés, Pedro ; Andrés, Miguel V.
Author_Institution :
Dept. de Fisica Aplicada, Univ. Politecnica de Valencia, Spain
Abstract :
The effect of the slope of the groove walls in the behavior of thin-film one-dimensional photonic crystal waveguides is extensively studied. In this respect, we point out its influence on the modal dispersion relations and then on the bandgap structure in general. Likewise, we also prove the lack of accuracy in the evaluation of the bandgap edges when material dispersion is ignored. The extreme importance of both facts, the wall slope and the material dispersion, in the analysis and design of realistic photonic crystal devices is emphasized. In particular, we exploit the wall slope as a new design parameter. By suitably choosing the value of the above parameter, sloped-wall photonic crystal waveguides with high quality factor or high group velocity dispersion can be achieved.
Keywords :
Q-factor; integrated optics; optical design techniques; optical waveguides; photonic band gap; photonic crystals; semiconductor thin films; thin film devices; bandgap edges; bandgap structure; groove wall; high group velocity dispersion; high quality factor; integrated optics; modal dispersion relations; one-dimensional photonic crystal; photonic crystal device design; photonic crystal waveguides; sloped-wall waveguides; thin-film waveguides; Crystalline materials; Dispersion; Integrated optics; Optical control; Optical films; Optical waveguides; Photonic band gap; Photonic crystals; Q factor; Transistors; Group velocity dispersion; integrated optics; optical waveguides; photonic crystals; vertical asymmetry;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2004.840828
