Title :
Active semiconductor-based grating waveguide structures
Author :
Dudovich, Nirit ; Levy-Yurista, Guy ; Sharon, Avner ; Friesem, Asher A. ; Weber, Hans-Georg
Author_Institution :
Dept. of Phys. of Complex Syst., Weizmann Inst. of Sci., Rehovot, Israel
fDate :
8/1/2001 12:00:00 AM
Abstract :
Under certain conditions, a high-finesse resonance phenomenon can occur in a grating waveguide structure (GWS). By varying these conditions, a shift in the resonance wavelength can be achieved. Specifically, utilizing the high finesse property of the GWS, small changes in the refractive index can result in a tuning range larger than the resonance bandwidth. Here, we consider different electric-field and charge carrier mechanisms that can affect the refractive index in semiconductor materials, and exploit them in order to control the refractive index change and, therefore, the resonance wavelength in the GWS. The predicted results are verified experimentally with an active GWS formed with semiconductor materials and operated in a reverse voltage configuration
Keywords :
III-V semiconductors; diffraction gratings; electro-optical filters; electro-optical modulation; gallium arsenide; indium compounds; integrated optics; optical multilayers; optical tuning; optical waveguide filters; optical waveguides; periodic structures; refractive index; InGaAsP-InP; active semiconductor-based grating waveguide structures; charge carrier mechanisms; electric-field mechanisms; high-finesse resonance phenomenon; refractive index; refractive index change control; resonance bandwidth; resonance wavelength shift; reverse voltage configuration; semiconductor materials; tuning range; Diffraction; Filters; Gratings; Optical refraction; Optical waveguides; Refractive index; Resonance; Semiconductor materials; Semiconductor waveguides; Substrates;
Journal_Title :
Quantum Electronics, IEEE Journal of
