Title :
Polarization Beam Splitter With Different Core Widths and Its Application to Dual-Polarization Optical Hybrid
Author :
Hashizume, Yasuaki ; Goh, Takashi ; Inoue, Yasuyuki ; Hamamoto, Kiichi ; Itoh, M.
Author_Institution :
NTT Device Innovation Center, Atsugi, Japan
Abstract :
We investigated the core-width dependence of the birefringence of silica-based waveguides with different relative refractive index differences (Δ), namely a 0.75%-Δ GeO2-doped waveguide and a 5%-Δ Ta2O5-doped waveguide. We revealed that the birefringence of the 0.75%-Δ GeO2-doped waveguide is almost the same as the stress-induced birefringence and that the 5%-Δ Ta2O5-doped waveguide has a large geometrical birefringence. By utilizing the core-width dependence of the birefringence, we have successfully demonstrated a 0.75%-Δ polarization beam splitter (PBS) with an operating wavelength range of more than 150 nm and a dual-polarization optical hybrid including a compact 5%-Δ PBS with a polarization extinction ratio of more than 20 dB over the C-band.
Keywords :
birefringence; extinction coefficients; geometrical optics; germanium compounds; integrated optics; light polarisation; optical beam splitters; optical waveguides; refractive index; silicon compounds; tantalum compounds; GeO2; SiO2; Ta2O5; core-width dependence; dual-polarization optical hybrid; geometrical birefringence; germanium dioxide-doped waveguide; polarization beam splitter; polarization extinction ratio; relative refractive index differences; silica-based waveguides; stress-induced birefringence; tantalum pentoxide-doped waveguide; Optical attenuators; Optical filters; Optical mixing; Optical polarization; Optical refraction; Optical waveguides; Stress; Dual polarization optical hybrid; Optical devices; Optical filters; Optical mixing; Optical polarization; Optical waveguides; Photonics integrated circuits; Polarization beam splitter; optical devices; optical filters; optical mixing; optical polarization; optical waveguides; photonics integrated circuits; polarization beam splitter;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2014.2387200
