Integrated fiber-optic sensor based on inscription of FBG in seven-core fiber for curvature and temperature measurements

•An integrated fiber-optic sensor with cross-sensitivity elimination effect is proposed and demonstrated.•The principle of sensor depends on seven fiber Bragg gratings inscribed in seven-core fiber by phase-mask technique.•The sensor can simultaneously measure temperature and curvature through analy...

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Bibliographic Details
Published in:Optical fiber technology 2023-01, Vol.75, p.103197, Article 103197
Main Authors: Liu, Yinggang, Feng, Yanpei, Wen, Junliang, Huang, Liang, Dong, Jingfei
Format: Article
Language:English
Subjects:
Curvature
Fiber Bragg grating (FBG)
Fiber-optic sensor
Seven-core fiber (SCF)
Temperature
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Summary:•An integrated fiber-optic sensor with cross-sensitivity elimination effect is proposed and demonstrated.•The principle of sensor depends on seven fiber Bragg gratings inscribed in seven-core fiber by phase-mask technique.•The sensor can simultaneously measure temperature and curvature through analyzing the wavelength shifts of FBGs.•The central-core FBG can be used as a temperature calibration during the curvature measurement. An integrated fiber-optic sensor with cross-sensitivity elimination effect is proposed and experimented for simultaneous measurements of curvature and temperature. The sensor structure mainly consists of a section of seven-core fiber (SCF) that fiber Bragg gratings (FBGs) were inscribed in each fiber core by phase-mask technique. Since the FBG in the central-core of SCF is only sensitive to temperature, and others in six outer-cores have same temperature responses and different sensitivity for curvature, the sensor can simultaneously measure temperature and curvature through analyzing the wavelength shifts of central-core FBG and every-two cores of FBG. The experiment results show that the maximum curvature sensitivity reaches 0.39 nm/m−1 in the curvature range of 2.53 m−1–8.62 m−1, and temperature response sensitivity is 9.97 pm/°C, which is consistent with ordinary single-mode FBG in temperature range of 30 °C–70 °C. Furthermore, the verified experiment for simultaneous measurement are performed, the central-core FBG can be used as a temperature calibration during the curvature measurement. The relative errors of curvature and temperature are 2.22 % and 2.58 %, respectively. The SCF-based FBG sensor has the advantages of small dimension, easy fabrication, better repeatability, and potential application values in many fields such as machine structure motion monitoring.
ISSN:1068-5200
1095-9912
DOI:10.1016/j.yofte.2022.103197