The effect of linear birefringence on fiber optic current sensor based on Faraday mirror

Rongxiang Zhang; X. Steve Yao; Tiegen Liu; Lin Li

doi:10.1117/12.2072334

17 November 2014 The effect of linear birefringence on fiber optic current sensor based on Faraday mirror

Rongxiang Zhang, X. Steve Yao, Tiegen Liu, Lin Li

Proceedings Volume 9274, Advanced Sensor Systems and Applications VI; 92741N (2014) https://doi.org/10.1117/12.2072334
Event: SPIE/COS Photonics Asia, 2014, Beijing, China

Abstract

The performance of the fiber optic current sensors (FOCSs) is limited by the linear birefringence (LB). Faraday mirror can be employed to compensate the LB by exploiting the non-reciprocity of Faraday effect and the reciprocity of LB. In this paper, the structure and principle of the FOCS using Faraday mirror are addressed, and the simulated results showing the influence of LB on FOCS are presented. The results indicate that the influence of LB disappears when the current is null. However, when the current is not zero, the LB is not removed and the extent of effect is different with different LB. Considering the LB is not easy to remove, a method to directly measure Faraday rotation in the presence of LB by time multiplexing of three different states of polarization is proposed. The Faraday rotation can be deduced directly from the detected signals and the LB need not be compensated physically by employing this technique.

Citation Download Citation

Rongxiang Zhang, X. Steve Yao, Tiegen Liu, and Lin Li "The effect of linear birefringence on fiber optic current sensor based on Faraday mirror", Proc. SPIE 9274, Advanced Sensor Systems and Applications VI, 92741N (17 November 2014); https://doi.org/10.1117/12.2072334

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