Title :
Phase compensation of bent silica-glass optical channel waveguide devices by vector-wave mode-matching method
Author :
Wang, Weyl-kuo ; Scotti, Ron ; Muehlner, D.J.
Author_Institution :
IBM Thomas J. Watson Res. Center, Yorktown Heights, NY, USA
fDate :
3/1/1997 12:00:00 AM
Abstract :
Reduction of the radiation loss is essential for the design of integrated-optic devices involving bent waveguides. For wavelength-selective waveguide devices requiring accurate phase control, the effect of bending-induced phase-constant change becomes even more important. The vector-wave mode-matching method is extended for the analysis of both loss and phase characteristics for general integrated-optic bent channel waveguides. For a typical Mach-Zehnder interferometric filter in silica-glass waveguide, the calculated phase-constant change is used in the waveguide path-length compensation which results in excellent agreement between design and measurement
Keywords :
Mach-Zehnder interferometers; compensation; integrated optics; mode matching; optical filters; optical glass; optical losses; optical waveguide theory; silicon compounds; vectors; accurate phase control; bending-induced phase-constant change; bent silica-glass optical channel waveguide devices; bent waveguides; calculated phase-constant change; integrated-optic bent channel waveguides; integrated-optic device design; loss characteristics; phase characteristics; phase compensation; radiation loss reduction; silica-glass waveguide; typical Mach-Zehnder interferometric filter; vector-wave mode-matching method; waveguide path-length compensation; wavelength-selective waveguide devices; Arrayed waveguide gratings; Mode matching methods; Optical attenuators; Optical devices; Optical filters; Optical interferometry; Optical losses; Optical variables control; Optical waveguides; Waveguide transitions;
Journal_Title :
Lightwave Technology, Journal of
