Highly sensitive strain sensor based on a sealed optical microfiber coupler

•A simple strain sensor based on OMC was demonstrated, which was one orders higher than FBG.•The protection of OMC with a strong evanescent field is realized.•Based on the theory of mechanical properties, the principle of strain sensing is deeply analyzed.•The mechanical properties of OMC under diff...

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Published in:Optical fiber technology 2020-10, Vol.59, p.102313, Article 102313
Main Authors: Qi, Kaiyue, Zhang, Yundong, Sun, Jianfeng, Su, Huaiyin, Guo, Ying, Zhu, Fuxing, Yi, Guo
Format: Article
Language:English
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Optical microfiber coupler
Strain sensing
Temperature sensing
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container_title Optical fiber technology
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creator Qi, Kaiyue
Zhang, Yundong
Sun, Jianfeng
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description •A simple strain sensor based on OMC was demonstrated, which was one orders higher than FBG.•The protection of OMC with a strong evanescent field is realized.•Based on the theory of mechanical properties, the principle of strain sensing is deeply analyzed.•The mechanical properties of OMC under different tensile lengths are clearly demonstrated.•The OMC has high stability, high resolution and achieve simultaneous measurement. A simple, high-sensitivity strain sensor based on a sealed optical microfiber coupler (OMC) was proposed and demonstrated. Affected by the strain, the effective refractive index (RI), microfiber length, microfiber diameter changes the coupling coefficient of the OMC. Due to the uneven force of the port3 and port4, the strain sensitivity after encapsulation will improve, which is proved in the experiment. The mechanical simulation demonstrates that there is a dependence between strain sensitivity and waist diameter. The sensor with a 2.3 μm waist diameter presents a sensitivity of −18.351 pm/με regarding the variation of axial strain from 10 to 1200με, which was one order of magnitude higher than that of optical strain sensors based on fiber Bragg gratings. Experimental results demonstrate that the OMC sensor exhibits high sensitivity, strong stability and the capability of simultaneous measurement of strain and temperature.
doi_str_mv 10.1016/j.yofte.2020.102313
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A simple, high-sensitivity strain sensor based on a sealed optical microfiber coupler (OMC) was proposed and demonstrated. Affected by the strain, the effective refractive index (RI), microfiber length, microfiber diameter changes the coupling coefficient of the OMC. Due to the uneven force of the port3 and port4, the strain sensitivity after encapsulation will improve, which is proved in the experiment. The mechanical simulation demonstrates that there is a dependence between strain sensitivity and waist diameter. The sensor with a 2.3 μm waist diameter presents a sensitivity of −18.351 pm/με regarding the variation of axial strain from 10 to 1200με, which was one order of magnitude higher than that of optical strain sensors based on fiber Bragg gratings. 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A simple, high-sensitivity strain sensor based on a sealed optical microfiber coupler (OMC) was proposed and demonstrated. Affected by the strain, the effective refractive index (RI), microfiber length, microfiber diameter changes the coupling coefficient of the OMC. Due to the uneven force of the port3 and port4, the strain sensitivity after encapsulation will improve, which is proved in the experiment. The mechanical simulation demonstrates that there is a dependence between strain sensitivity and waist diameter. The sensor with a 2.3 μm waist diameter presents a sensitivity of −18.351 pm/με regarding the variation of axial strain from 10 to 1200με, which was one order of magnitude higher than that of optical strain sensors based on fiber Bragg gratings. 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A simple, high-sensitivity strain sensor based on a sealed optical microfiber coupler (OMC) was proposed and demonstrated. Affected by the strain, the effective refractive index (RI), microfiber length, microfiber diameter changes the coupling coefficient of the OMC. Due to the uneven force of the port3 and port4, the strain sensitivity after encapsulation will improve, which is proved in the experiment. The mechanical simulation demonstrates that there is a dependence between strain sensitivity and waist diameter. The sensor with a 2.3 μm waist diameter presents a sensitivity of −18.351 pm/με regarding the variation of axial strain from 10 to 1200με, which was one order of magnitude higher than that of optical strain sensors based on fiber Bragg gratings. 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subjects Optical microfiber coupler
Strain sensing
Temperature sensing
title Highly sensitive strain sensor based on a sealed optical microfiber coupler
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