Temperature insensitive distributed wide-dynamic-range strain sensing based on polarization-maintaining photonic crystal fiber

In this paper, a temperature insensitive wide-dynamic-range distributed strain sensor with centimeter-level spatial resolution based on optical frequency domain reflection technology is proposed. It adopts a polarization-maintaining photonic crystal fiber as the sensing fiber, and experimental resul...

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Veröffentlicht in:	Journal of physics. D, Applied physics Applied physics, 2024-08, Vol.57 (30), p.305103
Hauptverfasser:	Xu, Zhenyuan, Geng, Youfu, Zhu, Xiaojian, Lu, Jing, Yi, Duo, Du, Yu, Wang, Jiaqi, Hong, Xueming, Li, Xuejin
Format:	Artikel
Sprache:	eng
Schlagworte:	optical frequency domain reflectance polarization-maintaining photonic crystal fiber strain sensor
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container_title	Journal of physics. D, Applied physics
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creator	Xu, Zhenyuan Geng, Youfu Zhu, Xiaojian Lu, Jing Yi, Duo Du, Yu Wang, Jiaqi Hong, Xueming Li, Xuejin
description	In this paper, a temperature insensitive wide-dynamic-range distributed strain sensor with centimeter-level spatial resolution based on optical frequency domain reflection technology is proposed. It adopts a polarization-maintaining photonic crystal fiber as the sensing fiber, and experimental results demonstrate that its temperature sensitivity is much smaller than that of the standard polarization-maintaining fiber. Benefited from the specially designed cross-correlation algorithm, the sensor achieves the maximum measurable strain reaches 7000 μϵ with spatial resolution of 1.66 cm. This provides a new approach to address current issues with special fiber sensors, such as single-point sensing and low spatial resolution, which shows great significance for structural health monitoring of buildings, bridges and tunnels with urgent requirement of large dynamic range.
doi_str_mv	10.1088/1361-6463/ad40bb
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title	Temperature insensitive distributed wide-dynamic-range strain sensing based on polarization-maintaining photonic crystal fiber
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