Citation: | LIU Jun-hao, LI Rui-chen. Analysis of thermal drift in high performance interferometric fiber-optic gyroscopes[J].Chinese Optics, 2020, 13(2): 333-343.doi:10.3788/CO.20201302.0333 |
[1] |
HERVRE C L.
The Fiber-Optic Gyroscope[M]. 2nd ed. Boston:Artech House, 2014.
|
[2] |
PATUREL Y, HONTHAAS J, LEFÈVRE H,
et al.. One nautical mile per month FOG-based strapdown inertial navigation system:a dream already within reach?[J].
Gyroscopy and Navigation, 2014, 5(1):1-8.
doi:10.1134/S207510871401009X
|
[3] |
VALI V, SHORTHILL R W. Fiber ring interferometer[J].
Applied Optics, 1976, 15(5):1099-1100.
doi:10.1364/AO.15.001099
|
[4] |
SHUPE D M. Thermally induced nonreciprocity in the fiber-optic interferometer[J].
Applied Optics, 1980, 19(5):654-655.
doi:10.1364/AO.19.000654
|
[5] |
FRIGO N J. Compensation of linear sources of non-reciprocity in Sagnac interferometers[J].
Proceedings of SPIE, 1983, 412:268-271.
doi:10.1117/12.935827
|
[6] |
LEFÈVRE H C. The fiber-optic gyroscope:challenges to become the ultimate rotation-sensing technology[J].
Optical Fiber Technology, 2013, 19(6):828-832.
doi:10.1016/j.yofte.2013.08.007
|
[7] |
KHAN J A, GUDMUNDSDOTTIR L, ALAM M. Fiber optic gyroscope coils:performance characterization[J].
Proceedings of SPIE, 2017, 10208:1020807.
doi:10.1117/12.2261977
|
[8] |
MINAKUCHI S, SANADA T, TAKEDA N,
et al.. Thermal strain in lightweight composite fiber-optic gyroscope for space application[J].
Journal of Lightwave Technology, 2015, 33(12):2658-2662.
doi:10.1109/JLT.2014.2375198
|
[9] |
CHAMOUN J N, DIGONNET M J F. Noise and bias error due to polarization coupling in a fiber optic gyroscope[J].
Journal of Lightwave Technology, 2015, 33(13):2839-2847.
doi:10.1109/JLT.2015.2416155
|
[10] |
MOHR F, SCHADT F. Bias error in fiber optic gyroscopes due to elasto-optic interactions in the sensor fiber[J].
Proceedings of SPIE, 2004, 5502:410-413.
doi:10.1117/12.566654
|
[11] |
MOHR F, SCHADT F. Rigorous treatment of fiber-environmental interactions in fiber gyroscopes[C].
Proceedings of 2008 IEEE Region 8 International Conference on Computational Technologies in Electrical and Electronics Engineering, IEEE, 2008: 372-375.
|
[12] |
MOHR F, SCHADT F. Error signal formation in FOGs through thermal and elastooptical environmental influences on the sensing coil[C].
International Sensors and Systems Symposium, Karlsruhe, 2011.
|
[13] |
OGUT S, OSUNLUK B, OZBAY E. Modeling of thermal sensitivity of a fiber optic gyroscope coil with practical quadrupole winding[C].
Proceedings of SPIE, 2017, 10208: 1020806.
|
[14] |
TATEDA M, TANAKA S, SUGAWARA Y. Thermal characteristics of phase shift in jacketed optical fibers[J].
Applied Optics, 1980, 19(5):770-773
doi:10.1364/AO.19.000770
|
[15] |
LAGAKOS N, BUCARO J A, JARZYNSKI J. Temperature-induced optical phase shifts in fibers[J].
Applied Optics, 1981, 20(13):2305-2308.
doi:10.1364/AO.20.002305
|
[16] |
MUSHA T, KAMIMURA J I, NAKAZAWA M. Optical phase fluctuations thermally induced in a single-mode optical fiber[J].
Applied Optics, 1982, 21(4):694-698.
doi:10.1364/AO.21.000694
|
[17] |
WONG D. Thermal stability of intrinsic stress birefringence in optical fibers[J].
Journal of Lightwave Technology,1990, 8(11):1757-1761.
doi:10.1109/50.60576
|
[18] |
CHIANG K S. Temperature sensitivity of coated stress-induced birefringence optical fibers[J].
Optical Engineering, 1997, 36(4):999-1007.
doi:10.1117/1.601293
|
[19] |
MCDEARMON G F. Theoretical analysis of the minimization of the temperature sensitivity of a coated optical fiber in a fiber-optic polarimeter[J].
Journal of Lightwave Technology, 1990, 8(1):51-55.
doi:10.1109/50.45929
|
[20] |
MOHR F, KIESEL P. Thermal sensitivity of sensing coils for fibre gyroscopes[J].
Proceedings of SPIE, 1984, 514:305-308.
doi:10.1117/12.945103
|
[21] |
MOHR F. Thermooptically induced bias drift in fiber optical Sagnac interferometers[J].
Journal of Lightwave Technology, 1996, 14(1):27-41.
doi:10.1109/50.476134
|