12 January 2018 Research on influence of different cover to the characteristic of FBG reflectance spectrum in vacuum thermal environment
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Abstract
To satisfy the application of fiber grating sensor technology in high vacuum thermal environment, two different kinds of sleeve compactly single model fiber covered by acrylate and polyimide are researched. Influence of the cover to the characteristic of FBG reflectance spectrum in high vacuum thermal environment is analyzed and verified. First, transmission characteristic of single model fiber in high vacuum thermal environment is analyzed by solve the equation of heat conduction. Then, experimental program of influence on FBG reflection spectrum characteristics is designed and a hardware-in-the-loop detection platform is set up. Finally, the influence of temperature and vacuum on the reflection peak power of FBG in different coating single-mode transmission fiber under high vacuum thermal environment is studied and verified. Experimental results indicate that: when vacuum varied from normal pressure to 10-4Pa level and then return to normal pressure, temperature of two different coating single-mode transmission fiber dropped to -196 ° from room temperature and then returned to room temperature, after 224 hours, the peak power of the FBG reflectance spectrum did not change. It provided the theoretical and experimental basis for the application of optical fiber sensing technology in high vacuum (pressure about 10-4Pa level) and thermal environment (-196 ° ∼ 25 ° temperature cycle) .
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Yifei Pei, Yifei Pei, Jingchuan Zhang, Jingchuan Zhang, Luosha Zhang, Luosha Zhang, Yang Liu, Yang Liu, Lina Zhang, Lina Zhang, Shiyu Chen, Shiyu Chen, } "Research on influence of different cover to the characteristic of FBG reflectance spectrum in vacuum thermal environment", Proc. SPIE 10621, 2017 International Conference on Optical Instruments and Technology: Optoelectronic Measurement Technology and Systems, 106211R (12 January 2018); doi: 10.1117/12.2295371; https://doi.org/10.1117/12.2295371
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