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Magnetic field and temperature dependence of Sagnac interferometers consisting of birefringent magneto-optic fibers is investigated. Experimental results show that the transmission spectrum of the all-fiber Sagnac interferometer moves towards the shorter wavelength side with the increase in temperature (temperature coefficient -0.435 nm/℃), and the transmissivity becomes wavelength- insensitive for a larger magnetic induction. And then, the temperature-insensitive magnetic field measurement is achieved by adjusting the polarization controller within the interferometer, and the magnetic field coefficient is 189 mW/T2 in the experiment, which is in agreement with the theoretical results.
[1] Lenz J, Edelstein A S 2006 IEEE Sens. J. 6 631
[2] Bian L X, Wen Y M, Li P 2010 Acta Phys. Sin. 59 883 (in Chinese) [卞雷祥, 文玉梅, 李平 2010 59 883]
[3] Su Y, Peng H, Feng K, Xu J H, Li Y Q 2009 Chinese J. Lasers 36 219 (in Chinese) [苏洋, 彭晖, 冯奎, 徐俊华, 李玉权 2009 中国激光 36 219]
[4] Reilly D, Willshire A J, Fusiek G, Niewczas P, McDonald J R 2006 IEEE Sens. J. 6 1539
[5] Zu P, Chan C C, Lew W S, Hu L, Jin Y, Liew H F, Chen L H, Wong W C, Dong X 2012 IEEE Photonics J. 4 491
[6] Zhang H, Qiu Y, Li H, Huang A, Chen H, Li G 2012 Opt. Express 20 18591
[7] Kemmet S, Mina M, Weber R J 2009 J. Appl. Phys. 105 07E702
[8] Zu P, Chan C C, Lew W S, Jin Y, Zhang Y, Liew H F, Chen L H, Wong W C, Dong X 2012 Opt. Lett. 37 398
[9] Pereira J M D, Postolache O, Girao P M B S 1998 IEEE Trans. Instrum. Meas. 47 494
[10] Bohnert K, Brändle H, Brunzel M G, Gabus P, Guggenbach P 2007 IEEE Trans. Ind. Appl. 43 180
[11] Berger S B, Rubinstein C B, Kurkjian C R, Treptow A W 1964 Phys. Rev. 133 A723
[12] Wen F, Wu B J, Luo T 2011 Appl. Opt. 50 3123
[13] Kim D H, Kang J U 2004 Opt. Express 12 4490
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[1] Lenz J, Edelstein A S 2006 IEEE Sens. J. 6 631
[2] Bian L X, Wen Y M, Li P 2010 Acta Phys. Sin. 59 883 (in Chinese) [卞雷祥, 文玉梅, 李平 2010 59 883]
[3] Su Y, Peng H, Feng K, Xu J H, Li Y Q 2009 Chinese J. Lasers 36 219 (in Chinese) [苏洋, 彭晖, 冯奎, 徐俊华, 李玉权 2009 中国激光 36 219]
[4] Reilly D, Willshire A J, Fusiek G, Niewczas P, McDonald J R 2006 IEEE Sens. J. 6 1539
[5] Zu P, Chan C C, Lew W S, Hu L, Jin Y, Liew H F, Chen L H, Wong W C, Dong X 2012 IEEE Photonics J. 4 491
[6] Zhang H, Qiu Y, Li H, Huang A, Chen H, Li G 2012 Opt. Express 20 18591
[7] Kemmet S, Mina M, Weber R J 2009 J. Appl. Phys. 105 07E702
[8] Zu P, Chan C C, Lew W S, Jin Y, Zhang Y, Liew H F, Chen L H, Wong W C, Dong X 2012 Opt. Lett. 37 398
[9] Pereira J M D, Postolache O, Girao P M B S 1998 IEEE Trans. Instrum. Meas. 47 494
[10] Bohnert K, Brändle H, Brunzel M G, Gabus P, Guggenbach P 2007 IEEE Trans. Ind. Appl. 43 180
[11] Berger S B, Rubinstein C B, Kurkjian C R, Treptow A W 1964 Phys. Rev. 133 A723
[12] Wen F, Wu B J, Luo T 2011 Appl. Opt. 50 3123
[13] Kim D H, Kang J U 2004 Opt. Express 12 4490
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