Abstract

A highly-sensitive and fast-responsive optical fiber temperature sensor based on the sealed liquid ethanol with a large detection range was proposed. The ethanol was injected into the fiber Fabry-Perot (FP) micro-cavity through the thin core silica capillary tube (SCT), which was then spliced to a section of singe mode fiber. A section of air core was formed in the thin core SCT near the splicing position. If the volume of the sealed ethanol is much larger than that of the air core, the ethanol can remain liquid state until its supercritical temperature (about 243 °C) at which the ethanol becomes supercritical state. The temperature sensitivity of proposed sensor with a volume ratio 2.89 of ethanol to air reaches –497.6 pm/ °C with an upper detection limit of 220 °C. Meanwhile, the order of the interference fringe can be distinguished by monitoring the transmission loss of the sensor, which can assist wavelength demodulation in the large detection range. Besides, the proposed fiber temperature sensor is with the advantages of fast response (less than 1 s for the temperature variation of about 90 °C) and good repeatability.

Highlights

  • In recent years, optical fiber temperature sensors have attracted increasing attention owing to their compact structure, fast response, real-time sensing and immunity to electromagnetic interference

  • A highly-sensitive and fast-responsive optical fiber temperature sensor based on the sealed liquid ethanol with a large detection range was proposed

  • We proposed a highly-sensitive and fast-responsive optical fiber temperature sensor based on the sealed liquid ethanol with a large detection range

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Summary

Introduction

Optical fiber temperature sensors have attracted increasing attention owing to their compact structure, fast response, real-time sensing and immunity to electromagnetic interference. For the thermal stress has nearly no influence on the liquid, the liquid materials with higher TOC and TEC were integrated into the optical fiber sensors by immerging the fiber structure in the liquid [11], [12] or filling the liquid such as liquid crystal [13], toluene [14], glycerol [15] and ethanol [16] into the fiber structure These sensors are with good repeatability in temperature increasing and decreasing processes [17], [18] without extra annealing treatment. We proposed a highly-sensitive and fast-responsive optical fiber temperature sensor based on the sealed liquid ethanol with a large detection range (up to 220 °C). The order of the interference fringe can be distinguished by monitoring the transmission loss of the sensor, which can help to achieve the accurate wavelength demodulation in a large temperature variation range when the shift of the interference fringe exceeds one free spectrum range (FSR)

Fabrication
Principle
Experimental Results and Discussion
Conclusion

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