Title :
Modeling and Performance of a Guided-Wave Optical Angular-Velocity Sensor Based on Raman Effect in SOI
Author :
De Leonardis, Francesco ; Passaro, Vittorio M N
Author_Institution :
Photonics Res. Group, Taranto
Abstract :
In this paper, we report, for the first time to the best of our knowledge, the detailed modeling and design of a guided-wave optical angular-velocity sensor based on Raman amplification in a silicon-on-insulator resonant cavity. Theoretical results for continuous-wave Raman laser emission are compared with experiments in the literature, demonstrating very good agreement. The model includes the influence of a number of physical effects on the propagation of both counterpropagating pumps and Stokes waves, such as stimulated Raman scattering, two- photon absorption, free-carrier dispersion, self- and cross-phase- modulation induced by the Kerr effect, and the lock-in effect. Investigation of optical dithering features by intracavity phase modulation is also presented. Performance is derived to optimize the device sensitivity for both medical, robotics, automotive, and entertainment gyro applications.
Keywords :
Raman spectra; fibre optic gyroscopes; optical Kerr effect; silicon-on-insulator; Kerr effect; Raman scattering; Stokes waves; automotive gyro; continuous-wave Raman laser emission; counterpropagating pumps; entertainment gyro; free-carrier dispersion; guided-wave optical angular-velocity sensor Raman amplification; intracavity phase modulation; lock-in effect; medical gyro; optical dithering; robotics gyro; silicon-on-insulator resonant cavity; two-photon absorption; Biomedical optical imaging; Nonlinear optics; Optical design; Optical modulation; Optical pumping; Optical scattering; Optical sensors; Raman scattering; Silicon on insulator technology; Stimulated emission; Angular velocity; Raman scattering; gyroscopes; microsensors; nonlinear optics; semiconductor-device modeling;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2007.901443
