Acta Optica Sinica, Volume. 43, Issue 3, 0312003(2023)
Influence of Faraday Rotator Mirror on Measurement of Magneto-Optical Properties of Spun Fibers
[1] Dong F N, Yang Q, Luo M D et al. Current sensor based on magnetostriction and fiber Bragg grating[J]. Acta Optica Sinica, 42, 0806001(2022).
[2] Petricevic S J, Mihailovic P M. Compensation of Verdet constant temperature dependence by crystal core temperature measurement[J]. Sensors, 16, 1627(2016).
[3] Müller G M, Quan W, Lenner M et al. Fiber-optic current sensor with self-compensation of source wavelength changes[J]. Optics Letters, 41, 2867-2870(2016).
[4] Wang M G, Zhang N H, Huang X D et al. High sensitivity demodulation of a reflective interferometer-based optical current sensor using an optoelectronic oscillator[J]. Optics Letters, 45, 4519-4522(2020).
[5] Bohnert K, Gabus P, Kostovic J et al. Optical fiber sensors for the electric power industry[J]. Optics and Lasers in Engineering, 43, 511-526(2005).
[6] Zhou D P, Dong Y. Anti-interference of current sensing fiber in all-fiber current sensors[J]. Acta Optica Sinica, 37, 1006002(2017).
[7] Wolf E. Unified theory of coherence and polarization of random electromagnetic beams[J]. Physics Letters A, 312, 263-267(2003).
[8] Xu S Y, Shao H M, Li C S et al. A linear birefringence measurement method for an optical fiber current sensor[J]. Sensors, 17, 1556(2017).
[9] Smith A M. Birefringence induced by bends and twists in single-mode optical fiber[J]. Applied Optics, 19, 2606-2611(1980).
[10] Sawale B A. Effect of induced linear birefringence on Faraday current sensor using ultra low birefringence optical fiber[C], 577-581(2016).
[11] Ulrich R, Rashleigh S C, Eickhoff W. Bending-induced birefringence in single-mode fibers[J]. Optics Letters, 5, 273-275(1980).
[12] Chang K S. Pressure-induced birefringence in a coated highly birefringent optical fiber[J]. Journal of Lightwave Technology, 8, 1850-1855(1990).
[13] Tabor W J, Chen F S. Electromagnetic propagation through materials possessing both Faraday rotation and birefringence: experiments with ytterbium orthoferrite[J]. Journal of Applied Physics, 40, 2760-2765(1969).
[14] Li Z Y, Meng Y C, Hao X Y. Spun high birefringence all-fiber current transformers[J]. Laser & Optoelectronics Progress, 54, 020601(2017).
[15] Polynkin P, Blake J. Polarization evolution in bent spun fiber[J]. Journal of Lightwave Technology, 23, 3815-3820(2005).
[16] Yao P H, Chen X J, Hao P et al. Introduction and measurement of the effective Verdet constant of spun optical fibers[J]. Optics Express, 29, 23315-23330(2021).
[17] Yuan L B, Tong W J, Jiang S et al. Road map of fiber optic sensor technology in China[J]. Acta Optica Sinica, 42, 0100001(2022).
[18] Peng N, Huang Y, Wang S B et al. Fiber optic current sensor based on special spun highly birefringent fiber[J]. IEEE Photonics Technology Letters, 25, 1668-1671(2013).
[19] Przhiyalkovsky Y V, Morshnev S K, Starostin N I et al. Modified sensing element of a fibre-optic current sensor based on a low-eigenellipticity spun fibre[J]. Quantum Electronics, 44, 957-964(2014).
[20] Przhiyalkovsky Y V, Morshnev S K, Starostin N I et al. Propagation of broadband optical radiation in a spun high-birefringent fibre[J]. Quantum Electronics, 43, 167-173(2013).
[21] Kang M H, Wang Y L, Ren L Y et al. Design of vibration-insensitive Sagnac fiber-optic current sensors using spun high-birefringence fibers[J]. Journal of Modern Optics, 61, 1120-1126(2014).
[22] Wang Y L, Kang M H, Ren L Y et al. Design of spun high-birefringent fiber for fiber optic current sensor[J]. Infrared and Laser Engineering, 44, 170-175(2015).
[23] Laming R I, Payne D N. Electric current sensors employing spun highly birefringent optical fibers[J]. Journal of Lightwave Technology, 7, 2084-2094(1989).
[24] Ding Y, Dong Y, Zhu J et al. Linear birefringence and imperfect quarter wave plate effects on optic-fiber current sensor[C](2011).
[25] Sun L, Jiang S B, Marciante J R. All-fiber optical faraday mirror using 56-wt%-terbium-doped fiber[J]. IEEE Photonics Technology Letters, 22, 999-1001(2010).
[26] Zhang R X, Yao X S, Liu T G et al. The effect of linear birefringence on fiber optic current sensor based on Faraday mirror[J]. Proceedings of SPIE, 9274, 92741N(2014).
[27] Martinelli M, Martelli P. Polarization, mirrors, and reciprocity: birefringence and its compensation in optical retracing circuits[J]. Advances in Optics and Photonics, 9, 129-168(2017).
[28] Wu J H, Zhang X F, Chen L et al. Research progress of all-fiber optic micro-current sensor[J]. Laser & Optoelectronics Progress, 60, 0300003(2023).
[29] Zhang H Y, Dong Y K, Leeson J et al. High sensitivity optical fiber current sensor based on polarization diversity and a Faraday rotation mirror cavity[J]. Applied Optics, 50, 924-929(2011).
[30] Li Y, Jiang M, Yang D Z et al. Measurement system of the fibers′ Verdet constant including a Faraday rotator mirror[C], 53-56(2013).
[31] Wen J X, Che Q Q, Dong Y H et al. Irradiation effect on the magneto-optical properties of bi-doped silica optical fiber based on valence state change[J]. Optical Materials Express, 10, 88-98(2020).
[32] Ruan Y L, Jarvis R A, Rode A V et al. Wavelength dispersion of Verdet constants in chalcogenide glasses for magneto-optical waveguide devices[J]. Optics Communications, 252, 39-45(2005).
[33] Pedroso C B, Munin E, Villaverde A B et al. Magneto-optical rotation of heavy-metal oxide glasses[J]. Journal of Non-Crystalline Solids, 231, 134-142(1998).
[34] Zhang G C[M]. The principles and technologies of fiber-optic gyroscope, 121-122(2008).
[35] Wen J X, Liu W J, Huang Y et al. Spun-related effects on optical properties of spun silica optical fibers[J]. Journal of Lightwave Technology, 33, 2674-2678(2015).
[36] Zhao S Y, Wang X L, Zhang N W et al. Polarization extinction ratio measurement optical communication systems[J]. Infrared, 28, 25-28, 46(2007).
[37] Wen J X, Wang W N, Guo Q et al. Gamma-ray radiation on magneto-optical property of Pb-doped silica fiber[J]. Journal of Inorganic Materials, 33, 416-420(2018).
[38] Huang Y, Chen L, Guo Q et al. The measurement system of birefringence and Verdet constant of optical fiber[J]. Proceedings of SPIE, 9046, 904615(2013).
[39] Jones R C. A new calculus for the treatment of optical systems I. description and discussion of the calculus[J]. Journal of the Optical Society of America, 31, 488-493(1941).
[40] Vukovic N, Sarmiento M S, May-Smith T et al. Birefringence upper limit analysis of low birefringence fibers employed in the Faraday effect current sensors[J]. Proceedings of SPIE, 9157, 91577C(2014).
[41] Chartier T, Hideur A, Ozkul C et al. Measurement of the elliptical birefringence of single-mode optical fibers[J]. Applied Optics, 40, 5343-5353(2001).
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Jiawei Zeng, Jianxiang Wen, Hao Shi, Yan Wu, Wei Chen, Xiaobei Zhang, Fufei Pang, Tingyun Wang. Influence of Faraday Rotator Mirror on Measurement of Magneto-Optical Properties of Spun Fibers[J]. Acta Optica Sinica, 2023, 43(3): 0312003
Category: Instrumentation, Measurement and Metrology
Received: Jun. 28, 2022
Accepted: Aug. 16, 2022
Published Online: Feb. 13, 2023
The Author Email: Wen Jianxiang (wenjx@shu.edu.cn)