Title :
LiNbO3 integrated optical chip for fiber optical gyroscope fabricated by high temperature proton exchange
Author :
Korkishko, Yu.N. ; Fedorov, V.A. ; Kostritskii, S.M. ; Alkaev, A.N. ; Paderin, E.M. ; Maslennikov, E.I. ; Kritzak, V.S. ; Apraksin, D.V.
Author_Institution :
Optolink Ltd., Moscow Inst. of Electron. Eng., Zelenograd, Russia
Abstract :
The main fiber optical gyroscope´s components is a multifunctional integrated optical chip (MIOC). Optolink´s MIOC is a solid state waveguide device on X-cut LiNbO3 substrate fabricated by high-temperature proton exchange method (HTPE). A very important advantage of proton exchange (PE) waveguides is the following. In such waveguides the extraordinary refraction index is increasing, while refraction index of ordinary ray is decreasing. As a result, proton exchanged waveguides support propagation only extraordinary polarization modes (TE in our case). Therefore, it is not necessary to use in the fiber optical gyroscope a polarizer, which brings additional loss.
Keywords :
fibre optic gyroscopes; integrated optics; ion exchange; lithium compounds; optical fibre fabrication; optical fibre polarisation; refractive index; LiNbO3; LiNbO3 integrated optical chip; Optolink´s MIOC; extraordinary polarization modes; extraordinary refraction index; fiber optical gyroscope fabrication; high temperature proton exchange method; optical gyroscope component; proton exchange waveguide; Gyroscopes; Integrated optics; Optical devices; Optical fiber devices; Optical fiber polarization; Optical propagation; Optical refraction; Optical waveguides; Protons; Solid state circuits;
Conference_Titel :
Laser and Fiber-Optical Networks Modeling, 2003. Proceedings of LFNM 2003. 5th International Workshop on
Print_ISBN :
0-7803-7709-5
DOI :
10.1109/LFNM.2003.1246149
