4.7 Article

Hybrid Sapphire Dual-Fabry-Perot-Cavities Sensor for High Temperature and Refractive Index Measurement

Journal

JOURNAL OF LIGHTWAVE TECHNOLOGY
Volume 39, Issue 12, Pages 3911-3918

Publisher

IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/JLT.2020.3040415

Keywords

Temperature measurement; Temperature sensors; Optical fiber sensors; Ocean temperature; Refractive index; Optical fibers; Solids; High sensitivity; high temperature measurement; hybrid Fabry-Perot interferometer; refractive index sensing; sapphire fiber sensors

Funding

  1. National Natural Science Foundation of China [62035006, 61735011, 61675152, 61505139]

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A hybrid sapphire dual-Fabry-Perot-cavities sensor was designed for high temperature and refractive index measurement, utilizing a series of sapphire components for the interferometer and demonstrating high sensitivities through experimental tests.
We presented a hybrid sapphire dual-Fabry-Perot- cavities sensor for high temperature and refractive index measurement. A double-sided polished sapphire solid wafer is connected in series with a double-sided parallel sapphire C-ring and a single-sided polished sapphire mirror to form the hybrid Fabry-Perot interferometer. The double-sided polished sapphire solid wafer acts as the first Fabry-Perot cavity for temperature sensing, and the sapphire hollow C-ring cavity constitutes the second Fabry-Perot cavity for measuring the refractive index of external environment medium. The single-sided polished sapphire mirror serves as the most distal reflector. Heterogeneous fiber splicing between sapphire fiber and multimode silica fiber is realized to achieve long-distance transmission of interference signals. A series of high temperature measurement experiments range of room temperature to 1080 degrees C in an air environment and refractive index measurement experiments in a liquid environment were carried out. Based on the changing rates of corresponding Fabry-Perot cavity optical path difference against refractive index and temperature, we calculated the sensitivities of the sensor. The refractive index and temperature sensitivities were 2.0659 x 10(5) nm/RIU in the RI range of 1.3330 similar to 1.3741 and 7.837 nm/ degrees C at 1080 degrees C.

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