Design of vibration-insensitive Sagnac fiber-optic current sensors using spun high-birefringence fibers

A novel fiber-optic current sensing element is proposed to enhance sensor performance using spun high-birefringence fibers. Such element includes three fiber sections. Two terminal sections with a varying spin rate along the fiber are utilized to replace the fiber quarter-wave plates, each convertin...

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Bibliographic Details
Published inJournal of modern optics Vol. 61; no. 14; pp. 1120 - 1126
Main Authors Kang, Meng-Hua, Wang, Ying-Li, Ren, Li-Yong, Xu, Jin-Tao, Liang, Jian, Qu, En-Shi
Format Journal Article
LanguageEnglish
Published Abingdon Taylor & Francis 16.08.2014
Taylor & Francis Ltd
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Summary:A novel fiber-optic current sensing element is proposed to enhance sensor performance using spun high-birefringence fibers. Such element includes three fiber sections. Two terminal sections with a varying spin rate along the fiber are utilized to replace the fiber quarter-wave plates, each converting the light polarization state from linear to circular and vice versa. The middle section with a uniform spin rate is utilized as the current sensing fiber that maintains the circular polarization state during the light propagation. The fiber is also wound into a special geometric structure so that the Sagnac phase shift can be inherently eliminated, and the sensing result does not depend on the position of the current conductor. The evolution of the light polarization state was analyzed using coupled-mode theory with different polarization state incidents in the sensing fiber. A sensor scheme based on this type of spun fiber is also proposed.
Bibliography:ObjectType-Article-2
SourceType-Scholarly Journals-1
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ISSN:0950-0340
1362-3044
DOI:10.1080/09500340.2014.922630