Simultaneous implementation of enhanced resolution and large dynamic range for fiber temperature sensing based on different optical transmission mechanisms
In this paper, a high resolution and large dynamic range fiber optic temperature sensor without measurement crosstalk has been proposed. Two combinational mechanisms of anti-resonant reflecting optical waveguide and inline Mach-Zehnder interference structure are integrated in single hole twin eccent...
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sg-ntu-dr.10356-885312023-02-28T19:35:43Z Simultaneous implementation of enhanced resolution and large dynamic range for fiber temperature sensing based on different optical transmission mechanisms Ni, Wenjun Lu, Ping Fu, Xin Sun, Handong Shum, Perry Ping Liao, Hao Jiang, Xinyue Liu, Deming Yang, Chunyong Zhang, Jiangshan Lian, Zhengang School of Physical and Mathematical Sciences DRNTU::Science::Physics Fiber Optics Sensors Fiber Optics Components In this paper, a high resolution and large dynamic range fiber optic temperature sensor without measurement crosstalk has been proposed. Two combinational mechanisms of anti-resonant reflecting optical waveguide and inline Mach-Zehnder interference structure are integrated in single hole twin eccentric cores fiber. The dual-effect composite spectrum is consist of several dominant resonant wavelengths and comb pattern, which are corresponding to the two above-mentioned mechanisms. Gauss fit and fast Fourier transform filtering are used for extracting the resonant wavelengths and comb spectrum, respectively. Accordingly, the temperature sensitivity of 42.18pm/°C and 2.057nm/°C are achieved by tracking the coherent decrease point. The lower sensitivity can guarantee a large dynamic range, while the higher one will contribute to the enhanced resolution. Therefore, the temperature monitoring is the combination of large dynamic range and enhanced resolution. Moreover, the size of the ultracompact sensor is only 950μm, which has a great potential for engineering applications. Published version 2019-02-01T03:40:50Z 2019-12-06T17:05:23Z 2019-02-01T03:40:50Z 2019-12-06T17:05:23Z 2018 Journal Article Ni, W., Lu, P., Fu, X., Sun, H., Shum, P. P., Liao, H., . . . Lian, Z. (2018). Simultaneous implementation of enhanced resolution and large dynamic range for fiber temperature sensing based on different optical transmission mechanisms. Optics Express, 26(14), 18341-. doi:10.1364/OE.26.018341 https://hdl.handle.net/10356/88531 http://hdl.handle.net/10220/47607 10.1364/OE.26.018341 en Optics Express © 2018 Optical Society of America under the terms of the OSA Open Access Publishing Agreement. Users may use, reuse, and build upon the article, or use the article for text or data mining, so long as such uses are for non-commercial purposes and appropriate attribution is maintained. All other rights are reserved. 10 p. application/pdf |
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DRNTU::Science::Physics Fiber Optics Sensors Fiber Optics Components Ni, Wenjun Lu, Ping Fu, Xin Sun, Handong Shum, Perry Ping Liao, Hao Jiang, Xinyue Liu, Deming Yang, Chunyong Zhang, Jiangshan Lian, Zhengang Simultaneous implementation of enhanced resolution and large dynamic range for fiber temperature sensing based on different optical transmission mechanisms |
| description |
In this paper, a high resolution and large dynamic range fiber optic temperature sensor without measurement crosstalk has been proposed. Two combinational mechanisms of anti-resonant reflecting optical waveguide and inline Mach-Zehnder interference structure are integrated in single hole twin eccentric cores fiber. The dual-effect composite spectrum is consist of several dominant resonant wavelengths and comb pattern, which are corresponding to the two above-mentioned mechanisms. Gauss fit and fast Fourier transform filtering are used for extracting the resonant wavelengths and comb spectrum, respectively. Accordingly, the temperature sensitivity of 42.18pm/°C and 2.057nm/°C are achieved by tracking the coherent decrease point. The lower sensitivity can guarantee a large dynamic range, while the higher one will contribute to the enhanced resolution. Therefore, the temperature monitoring is the combination of large dynamic range and enhanced resolution. Moreover, the size of the ultracompact sensor is only 950μm, which has a great potential for engineering applications. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Ni, Wenjun Lu, Ping Fu, Xin Sun, Handong Shum, Perry Ping Liao, Hao Jiang, Xinyue Liu, Deming Yang, Chunyong Zhang, Jiangshan Lian, Zhengang |
| format |
Article |
| author |
Ni, Wenjun Lu, Ping Fu, Xin Sun, Handong Shum, Perry Ping Liao, Hao Jiang, Xinyue Liu, Deming Yang, Chunyong Zhang, Jiangshan Lian, Zhengang |
| author_sort |
Ni, Wenjun |
| title |
Simultaneous implementation of enhanced resolution and large dynamic range for fiber temperature sensing based on different optical transmission mechanisms |
| title_short |
Simultaneous implementation of enhanced resolution and large dynamic range for fiber temperature sensing based on different optical transmission mechanisms |
| title_full |
Simultaneous implementation of enhanced resolution and large dynamic range for fiber temperature sensing based on different optical transmission mechanisms |
| title_fullStr |
Simultaneous implementation of enhanced resolution and large dynamic range for fiber temperature sensing based on different optical transmission mechanisms |
| title_full_unstemmed |
Simultaneous implementation of enhanced resolution and large dynamic range for fiber temperature sensing based on different optical transmission mechanisms |
| title_sort |
simultaneous implementation of enhanced resolution and large dynamic range for fiber temperature sensing based on different optical transmission mechanisms |
| publishDate |
2019 |
| url |
https://hdl.handle.net/10356/88531 http://hdl.handle.net/10220/47607 |
| _version_ |
1759858240715227136 |