Ultrasensitive fiber-optic temperature sensor based on cascaded Sagnac interferometers with a nematic liquid crystal film
We demonstrated an ultrasensitive fiber-optic temperature sensor based on cascaded Sagnac interferometers (CSIs). One of the Sagnac interferometers (SIs) consisted of a panda polarization-maintaining fiber (PMF) as the reference arm, while the other one contained two single-mode patch cables in a fe...
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sg-ntu-dr.10356-1640932023-01-04T07:59:47Z Ultrasensitive fiber-optic temperature sensor based on cascaded Sagnac interferometers with a nematic liquid crystal film Fan, Xiaoya Chen, Hailiang Zheng, Yu Liu, Yundong Chen, Qiang Zhang, Yingyue Ma, Mingjian Du, Huijing Li, Shuguang Shum, Perry Ping School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering Nematic Liquid Crystal Cascaded Sagnac Interferometers We demonstrated an ultrasensitive fiber-optic temperature sensor based on cascaded Sagnac interferometers (CSIs). One of the Sagnac interferometers (SIs) consisted of a panda polarization-maintaining fiber (PMF) as the reference arm, while the other one contained two single-mode patch cables in a ferrule matching sleeve as the sensing arm, where a nematic liquid crystal (NLC) film was infiltrated into the micron-scale gap of the sleeve. In the sensing SI, the orientation of NLC film was induced by just rotating the two single-mode patch cables without any orientation agent, electric, or magnetic devices. Vernier effect was acquired by adjusting the thickness of NLC film. Experimental results revealed that the temperature sensitivity of the CSIs was up to 43.13 nm/°C, which was enhanced about 5 times compared to the single NLC SI. The designed optical fiber temperature sensor possessed the merits of compact structure, high stability, ultrahigh sensitivity, low hysteresis effect and high resolution, showing a promising application prospect in some scientific filed requiring accurate temperature measurement, such as biomolecules, medicine and other filed. X. Y. Fan thanks the National Natural Science Foundation of China and National Key Research and Development Project for help identifying collaborators for this work. 2023-01-04T07:59:47Z 2023-01-04T07:59:47Z 2022 Journal Article Fan, X., Chen, H., Zheng, Y., Liu, Y., Chen, Q., Zhang, Y., Ma, M., Du, H., Li, S. & Shum, P. P. (2022). Ultrasensitive fiber-optic temperature sensor based on cascaded Sagnac interferometers with a nematic liquid crystal film. Optics and Laser Technology, 152, 108169-. https://dx.doi.org/10.1016/j.optlastec.2022.108169 0030-3992 https://hdl.handle.net/10356/164093 10.1016/j.optlastec.2022.108169 2-s2.0-85128226089 152 108169 en Optics and Laser Technology © 2022 Elsevier Ltd. All rights reserved. |
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Engineering::Electrical and electronic engineering Nematic Liquid Crystal Cascaded Sagnac Interferometers |
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Engineering::Electrical and electronic engineering Nematic Liquid Crystal Cascaded Sagnac Interferometers Fan, Xiaoya Chen, Hailiang Zheng, Yu Liu, Yundong Chen, Qiang Zhang, Yingyue Ma, Mingjian Du, Huijing Li, Shuguang Shum, Perry Ping Ultrasensitive fiber-optic temperature sensor based on cascaded Sagnac interferometers with a nematic liquid crystal film |
| description |
We demonstrated an ultrasensitive fiber-optic temperature sensor based on cascaded Sagnac interferometers (CSIs). One of the Sagnac interferometers (SIs) consisted of a panda polarization-maintaining fiber (PMF) as the reference arm, while the other one contained two single-mode patch cables in a ferrule matching sleeve as the sensing arm, where a nematic liquid crystal (NLC) film was infiltrated into the micron-scale gap of the sleeve. In the sensing SI, the orientation of NLC film was induced by just rotating the two single-mode patch cables without any orientation agent, electric, or magnetic devices. Vernier effect was acquired by adjusting the thickness of NLC film. Experimental results revealed that the temperature sensitivity of the CSIs was up to 43.13 nm/°C, which was enhanced about 5 times compared to the single NLC SI. The designed optical fiber temperature sensor possessed the merits of compact structure, high stability, ultrahigh sensitivity, low hysteresis effect and high resolution, showing a promising application prospect in some scientific filed requiring accurate temperature measurement, such as biomolecules, medicine and other filed. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Fan, Xiaoya Chen, Hailiang Zheng, Yu Liu, Yundong Chen, Qiang Zhang, Yingyue Ma, Mingjian Du, Huijing Li, Shuguang Shum, Perry Ping |
| format |
Article |
| author |
Fan, Xiaoya Chen, Hailiang Zheng, Yu Liu, Yundong Chen, Qiang Zhang, Yingyue Ma, Mingjian Du, Huijing Li, Shuguang Shum, Perry Ping |
| author_sort |
Fan, Xiaoya |
| title |
Ultrasensitive fiber-optic temperature sensor based on cascaded Sagnac interferometers with a nematic liquid crystal film |
| title_short |
Ultrasensitive fiber-optic temperature sensor based on cascaded Sagnac interferometers with a nematic liquid crystal film |
| title_full |
Ultrasensitive fiber-optic temperature sensor based on cascaded Sagnac interferometers with a nematic liquid crystal film |
| title_fullStr |
Ultrasensitive fiber-optic temperature sensor based on cascaded Sagnac interferometers with a nematic liquid crystal film |
| title_full_unstemmed |
Ultrasensitive fiber-optic temperature sensor based on cascaded Sagnac interferometers with a nematic liquid crystal film |
| title_sort |
ultrasensitive fiber-optic temperature sensor based on cascaded sagnac interferometers with a nematic liquid crystal film |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/164093 |
| _version_ |
1754611298153267200 |