Title :
Theory of polarization evolution in interferometric fiber-optic depolarized gyros
Author :
Szafraniec, Bogdan ; Sanders, Glen A.
Author_Institution :
Technol. Center, Honeywell Inc., Phoenix, AZ, USA
fDate :
4/1/1999 12:00:00 AM
Abstract :
Single-mode (SM) fiber which is used in the sensing coil of depolarized interferometric fiber-optic gyroscopes (IFOG´s) does not maintain the polarization state of light. As a consequence, the state of polarization evolves freely over the length of the sensing coil and over environment. The polarization evolution is induced by birefringence within the SM coil. Variations of this birefringence may lead to nonreciprocal errors whose treatment is presented in this paper together with signal fading and the mean wavelength stability. Thus, this treatment provides a relatively comprehensive analysis of polarization evolution in depolarized gyroscopes. The analysis leads to the conclusion that the depolarized gyro architecture with two depolarizers on the opposite sides of the gyro loop must be used to obtain low-drift behaviour
Keywords :
birefringence; fibre optic gyroscopes; light interferometers; optical fibre polarisation; stability; birefringence; depolarized gyro architecture; depolarized interferometric fiber-optic gyroscopes; gyro loop; interferometric fiber-optic depolarized gyros; low-drift behaviour; nonreciprocal errors; polarization evolution; polarization state; sensing coil; signal fading; single-mode fiber; wavelength stability; Birefringence; Coils; Gyroscopes; Optical fiber polarization; Optical fiber theory; Optical interferometry; Optical polarization; Sagnac interferometers; Samarium; Stability;
Journal_Title :
Lightwave Technology, Journal of
