Ampere force based magnetic field sensor using dual-polarization fiber laser

Optics Express

Volumn 21, Issue 11, 2013, Pages 13419-13424

  Cheng, Linghao ^a   Guo, Zhenzhen ^a   Han, Jianlei ^a   Jin, Long ^a   Guan, Bai Ou ^a  

^a JINAN UNIVERSITY   (China)

Author keywords

[No Author keywords available]

Indexed keywords

FIBER LASERS; MAGNETOMETERS; POLARIZATION; WIRE;

ALTERNATING CURRENT; DUAL-POLARIZATIONS; ELECTRICAL CURRENT; FIBER GRATING LASERS; FREQUENCY CHANGES; HIGH SENSITIVITY; MAGNETIC FIELD SENSORS; PERPENDICULAR MAGNETIC FIELDS;

MAGNETIC SENSORS;

EID: 84878854161     PISSN: None     EISSN: 10944087     Source Type: Journal    
DOI: 10.1364/OE.21.013419     Document Type: Article

References (16)

1. L. Cheng, J. Han, Z. Guo, L. Jin, and B.-O. Guan, "Faraday-rotation- based miniature magnetic field sensor using polarimetric heterodyning fiber grating laser," Opt. Lett. 38(5), 688-690 (2013
2. M. Yang, J. Dai, C. Zhou, and D. Jiang, "Optical fiber magnetic field sensors with TbDyFe magnetostrictive thin films as sensing materials," Opt. Express 17(23), 20777-20782 (2009
3. B.-O. Guan and S.-N. Wang, "Fiber grating laser current sensor based on magnetic force," IEEE Photon. Technol. Lett. 22(4), 230-232 (2010
4. G. A. Cranch, G. M. H. Flockhart, and C. K. Kirkendall, "High-resolution distributed-feedback fiber laser dc magnetometer based on the Lorentzian force," Meas. Sci. Technol. 20(3), 034023 (2009
5. J. Noda, T. Hosaka, Y. Sasaki, and R. Ulrich, "Dispersion of Verdet constant in stress-birefringent silica fibre," Electron. Lett. 20(22), 906-907 (1984
6. T. Yoshino, T. Hashimoto, M. Nara, and K. Kurosawa, "Common path heterodyne optical fiber sensors," J. Lightwave Technol. 10(4), 503-513 (1992
7. C.-L. Tien, C.-C. Hwang, H.-W. Chen, W. F. Liu, and S.-W. Lin, "Magnetic sensor based on side-polished fiber Bragg grating coated with iron film," IEEE Trans. Magn. 42(10), 3285-3287 (2006
8. A. Dandridge, A. B. Tveten, and T. G. Giallorenzi, "Interferometric current sensors using optical fibers," Electron. Lett. 17(15), 523-525 (1981
9. C. T. Shyu and L. Wang, "Sensitive linear electric current measurement using two metal-coated single-mode fibers," J. Lightwave Technol. 12(11), 2040-2048 (1994
10. S. Jin, H. Mavoori, R. P. Espindola, L. E. Adams, and T. A. Strasser, "Magnetically tunable fiber Bragg gratings," in Proc. OFC'99, San Diego, CA, ThJ2, 135-137 (1999
11. J. Gong, C. C. Chan, M. Zhang, W. Jin, J. M. K. MacAlpine, and Y. B. Liao, "Fiber Bragg grating current sensor using linear magnetic actuator," Opt. Eng. 41(3), 557-558 (2002
12. B.-O. Guan, L. Jin, Y. Zhang, and H.-Y. Tam, "Polarimetric heterodyning fiber grating laser sensors," J. Lightwave Technol. 30(8), 1097-1112 (2012
13. Y. Zhang, B.-O. Guan, and H. Y. Tam, "Ultra-short distributed Bragg reflector fiber laser for sensing applications," Opt. Express 17(12), 10050-10055 (2009
14. K. S. Chiang, R. Kancheti, and V. Rastogi, "Temperature-compensated fiber-Bragg-grating-based magnetostrictive sensor for dc and ac currents," Opt. Eng. 42(7), 1906-1909 (2003
15. R. Gafsi and M. A. El-Sherif, "Analysis of induced-birefringence effects on fiber Bragg gratings," Opt. Fiber Technol. 6(3), 299-323 (2000
16. Y.-N. Tan, L. Jin, L. Cheng, Z. Quan, M. Li, and B.-O. Guan, "Multi-octave tunable RF signal generation based on a dual-polarization fiber grating laser," Opt. Express 20(7), 6961-6967 (2012).