Modal-interference-based temperature sensing using plastic optical fibers: markedly enhanced sensitivity near glass-transition temperature

被引：0

作者：

Numata, Goki ^{[1
]}

Hayashi, Neisei ^{[1
]}

Tabaru, Marie ^{[1
]}

Mizuno, Yosuke ^{[1
]}

Nakamura, Kentaro ^{[1
]}

机构：

[1] Tokyo Inst Technol, Precis & Intelligence Lab, Midori Ku, Yokohama, Kanagawa 2268503, Japan

来源：

FIFTH ASIA-PACIFIC OPTICAL SENSORS CONFERENCE | 2015年 / 9655卷

关键词：

Plastic/polymer optical fibers; optical fiber sensors; multimode interference; strain and temperature sensing; MULTIMODE INTERFERENCE; BRILLOUIN-SCATTERING; DOMAIN REFLECTOMETRY; STRAIN-MEASUREMENT; SPONTANEOUS RAMAN; GRATING SENSORS; PROPOSAL;

D O I：

10.1117/12.2184389

中图分类号：

TM [电工技术]; TN [电子技术、通信技术];

学科分类号：

0808 ; 0809 ;

摘要：

We developed strain and temperature sensors based on multimode interference in perfluorinated graded-index (GI) plastic optical fibers, and investigate their sensing performance at 1300 nm. At room temperature, we achieve ultra-high sensitivities of strain and temperature of -112 pm/mu epsilon and +49.8 nm/degrees C/m, the absolute value of which are approximately 7.2 and over 1800 times as large as those in silica GI multimode fibers, respectively. We also find that the temperature sensitivity is drastically enhanced with increasing temperature toward similar to 80 degrees C, where phase transition of core polymer partially occurs.

引用

页数：4

共 25 条

[1] Modal-Interference-Based Displacement Sensing Using Partially Strained Plastic Optical Fibers
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[2] Drastic Sensitivity Enhancement of Temperature Sensing Based on Modal Interference in Plastic Optical Fibers
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[3] Temperature Sensing Based on Multimodal Interference in Plastic Optical Fibers: Sensitivity Enhancement by Annealing
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[4] Drastic sensitivity enhancement of temperature sensing based on multimodal interference in polymer optical fibers
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[5] Temperature sensing based on multimodal interference in polymer optical fibers: Room-temperature sensitivity enhancement by annealing
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[6] Ultra-Sensitive Strain and Temperature Sensing Based on Modal Interference in Perfluorinated Polymer Optical Fibers
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[7] Temperature sensing based on multimode interference in polymer optical fibers: sensitivity enhancement by PC-APC connections
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[9] Measurement of the Temperature Sensitivity of Phase Modal Birefringence of Polarization Maintaining Optical Fibers using a Sagnac Interferometer Based Temperature Sensor
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[10] Characterization of modal interference in multi-core polymer optical fibers and its application to temperature sensing
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