Band gap engineering in 2D photonic crystals: the influence of element shape and rotational angle

Author

Bekker, E.V. ; Tham, T.K. ; Benson, T.M.

Author_Institution

George Green Inst. for Electromagn. Res., Nottingham Univ., UK

Volume

1

fYear

2004

fDate

4-8 July 2004

Firstpage

113

Abstract

The influence of the element shape and rotational angle on the band gap structure of 2D photonic crystals is investigated. Elements of triangular and hexagonal shape, organised in triangular lattices, are considered. Generally, for elements having a regular polygon shape, the lowest band gaps calculated are found to correspond to those for equivalent circular elements with a smaller material fraction. The size and location of the band gaps are strongly affected by decreasing the structural symmetry, through changing the element shape, its rotational angle relative to the lattice, or a combination of the two. This allows absolute band gap engineering. Example geometries show large absolute band gaps.

Keywords

photonic band gap; photonic crystals; 2D photonic crystals; band gap engineering; band gap structure; element shape; equivalent circular elements; hexagonal elements; rotational angle; structural symmetry; triangular elements; triangular lattices; Crystalline materials; Dielectrics; Frequency; Lattices; Maxwell equations; Optical refraction; Photonic band gap; Photonic crystals; Polarization; Shape;

fLanguage

English

Publisher

ieee

Conference_Titel

Transparent Optical Networks, 2004. Proceedings of 2004 6th International Conference on

Print_ISBN

0-7803-8343-5

Type

conf

DOI

10.1109/ICTON.2004.1360256

Filename

1360256