Title :
Integrated optical polarization-discriminating receiver in glass
Author :
Veasey, David L. ; Larson, Donald R.
Author_Institution :
Opt. Electron. Metrol. Group, Nat. Inst. of Stand. & Technol., Boulder, CO, USA
fDate :
11/1/1995 12:00:00 AM
Abstract :
We have successfully demonstrated an integrated optical TE-TM mode discriminator using waveguide polarizers and guided-wave photodetectors for use in polarimetric optical sensor and positioning systems. The photonic integrated circuit consists of a Y-branch waveguide splitter formed by potassium-sodium ion exchange in silicate glass. Hydrogenated amorphous silicon claddings were deposited on each branch of the splitter to act as polarizers. One output cladding was trimmed to a thickness which attenuated the TE polarization, while the other cladding was trimmed to attenuate light having TM polarization. The thickness trimming was accomplished using a process of localized plasma etching which allows in situ extinction optimization by monitoring transmitted light. Optical extinction ratios of up to 27 dB were demonstrated on Y-branch waveguides for polarizers with claddings 1.2 mm in length. The integrated receiver was completed with the deposition of metal-semiconductor-metal photodetectors on each of the output waveguide branches following the polarizers. Amorphous silicon claddings were contacted with chrome-gold interdigitated Schottky contacts to form the waveguide detectors
Keywords :
integrated optics; ion exchange; metal-semiconductor-metal structures; optical fabrication; optical glass; optical polarisers; optical receivers; optical sensors; photodetectors; polarimeters; sputter etching; 1.2 mm; Si:H; TE polarization; TM polarization; Y-branch waveguide splitter; Y-branch waveguides; chrome-gold interdigitated Schottky contacts; glass; guided-wave photodetectors; hydrogenated amorphous Si claddings; in situ extinction optimization; integrated optical TE-TM mode discriminator; integrated receiver; localized plasma etching; metal-semiconductor-metal photodetectors; optical extinction ratios; output cladding; photonic integrated circuit; polarimetric optical sensor; polarization-discriminating receiver; positioning systems; potassium-sodium ion exchange; silicate glass; thickness trimming; waveguide polarizers; Amorphous silicon; Glass; Integrated optics; Optical attenuators; Optical polarization; Optical receivers; Optical sensors; Optical waveguides; Particle beam optics; Photodetectors;
Journal_Title :
Lightwave Technology, Journal of
