Title :
Electrically Tunable Silicon 2-D Photonic Bandgap Structures
Author :
Haurylau, Mikhail ; Anderson, Sean P. ; Marshall, Kenneth L. ; Fauchet, Philippe M.
Author_Institution :
Dept. of Electr. & Comput. Eng., Rochester Univ., NY
Abstract :
Electrical tuning of high refractive index-contrast photonic bandgap (PBG) structures is required for a majority of PBG applications, particularly for integrated optics. When the host material is a semiconductor with poor electro-optical properties, tuning can be achieved by infiltrating the structure with an active optical material. In this paper we analyze the switching of electro-optic material in such structures, and suggest design rules to help achieve electrical tuning. In particular, a design concept that eliminates the electric field screening effects is proposed. The developed rules and concepts are demonstrated by the electrical tuning of liquid crystals inside two-dimensional porous silicon PBG structures. This approach can be generalized to different combinations of semiconductor PBG structures and active optical materials
Keywords :
electro-optical effects; electro-optical switches; elemental semiconductors; integrated optics; liquid crystals; optical materials; photonic band gap; porous semiconductors; refractive index; silicon; Si; active optical material; electric field screening effects; electrical tuning; electrooptic switching; electrooptical properties; integrated optics; liquid crystals; porous silicon structures; refractive index; silicon photonic bandgap; two-dimensional photonic bandgap; Crystalline materials; Laser tuning; Liquid crystals; Optical materials; Optical refraction; Optical tuning; Photonic band gap; Photonic crystals; Semiconductor materials; Silicon; Electro-optic material; field screening; liquid crystals; photonic bandgap (PBG); silicon;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/JSTQE.2006.884084
