Semiconductor Optoelectronics, Volume. 43, Issue 4, 689(2022)
Study on the Variation Mechanism of Radiation-Induced Magnetic Field Error in Space Fiber Optic Gyroscope
[1] [1] Wen X, Dewen L, Yuyan Z. Research on the key techniques of fiber optic gyroscopes in space applications[J]. Proc. SPIE, 2005, 5985: 59855O.1-59855O.4.
[2] [2] Cai Wei, Song Ningfang, Jin Jing, et al. Transverse magneto-optic error of a miniature solid-core photonic-crystal fiber optic gyroscope[J]. IEEE Access, 2019, 7: 20106-20112.
[3] [3] Hotate K, Tabe K. Drift of an optical fiber gyroscope caused by the Faraday effect: influence of the earths magnetic field[J]. Appl. Optics, 1986, 25(7): 1086-1092.
[4] [4] Kim Y, Ju S, Jeong S, et al. Influence of gamma-ray irradiation on Faraday effect of Cu-doped germano-silicate optical fiber[J]. Nuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms, 2015, 344: 39-43.
[5] [5] Wen J, Che Q, Dong Y, et al. Irradiation effect on the magneto-optical properties of Bi-doped silica optical fiber based on valence state change[J]. Optical Materials Express, 2020, 10(1): 88.
[6] [6] Yang Y, Hui L, Lin L, et al. Radiation-induced birefringence variations in polarization-maintaining fibers[J]. Opt. Lett., 2017, 42(24): 5214-5217.
[7] [7] Lefèvre H. Potpourri of comments about the fiber optic gyro for its 40th anniversary, and how fascinating it was and it still is![C]// Proc. SPIE Commercial + Scientific Sensing and Imaging, 2016.
[8] [8] Zhao Yuxiang, Zhou Yanru, Zhang Dengwei, et al. Nonreciprocal phase error caused by orthogonal magnetic field in a polarization-maintaining fiber-optic gyro[J]. IEEE Sensors J., 2015, 15(9): 5128-5132.
[9] [9] Arditty H J, Lefevre H C. The Fiber-Optic Gyroscope[M]. Artech House, 1984.
[10] [10] Logozinskii V N. Magnetically induced non-Faraday nonreciprocity in a fiber-optic gyroscope[J]. J. of Communications Technology and Electronics, 2006, 51(7): 836-840.
[11] [11] Wen J X, Wang W N, Guo Q, et al. Gamma-ray radiation on magneto-optical property of Pb-doped silica fiber[J]. J. of Inorganic Materials, 2018, 33(4): 416.
[12] [12] Baccini D. The effect of gamma radiation on fibre Bragg grating sensors when used as radiation dosimeters[J]. Theses Honours, 2013.
[13] [13] Kher S, Chaubey S, Oak S M, et al. Measurement of gamma-radiation induced refractive index changes in B/Ge doped fiber using LPGs[J]. IEEE Photon. Technol. Lett., 2013, 25(21): 2070-2073.
[15] [15] Borrelli, Nicholas F. Faraday rotation in glasses[J]. The J. of Chemical Phys., 1964, 41(11): 3289-3293.
[16] [16] Suits J C. Faraday and Kerr effects in magnetic compounds[J]. IEEE Trans. on Magnetics, 1972, 8(1): 95-105.
[17] [17] Borgermans P, Brichard B, Decreton M C. Models for the radiation-induced attenuation in pure silica optical fibers: spectral dependencies and absorption band kinetics[J]. Proc. of SPIE, 2002, 24(3): 272-277.
[19] [19] Fernandez A, Brichard B, Berghmans F. In situ measurement of refractive index changes induced by gamma radiation in germanosilicate fibers[J]. IEEE Photon. Technol. Lett., 2003, 15(10): 1428-1430.
[20] [20] Loch M, Heinlein W E. High-resolution measurement of birefringence profiles in stress-induced polarization-maintaining fibers[J]. J. of Lightwave Technol., 1989, 7(8): 1213-1216.
[21] [21] Wong D, Poole S B, Sceats M G. Stress-birefringence reduction in elliptical-core fibers under ultraviolet irradiation[J]. Opt. Lett., 1992, 17(24): 1773-1777.
[22] [22] Yang Y, Duan W, Miao Y. High precision measurement technology for beat length of birefringence optical fiber[J]. Measurement Science & Technol., 2013, 24(2): 025201.
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WANG Tingting, WANG Xiaowei, JIN Jing, SONG Ningfang. Study on the Variation Mechanism of Radiation-Induced Magnetic Field Error in Space Fiber Optic Gyroscope[J]. Semiconductor Optoelectronics, 2022, 43(4): 689
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Received: Jul. 29, 2022
Accepted: --
Published Online: Oct. 16, 2022
The Author Email: Xiaowei WANG (wangxw@buaa.edu.cn)