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    Journals >Laser & Optoelectronics Progress >Volume 59 >Issue 1 >Page 0106007 > Article
    • Laser & Optoelectronics Progress
    • Vol. 59, Issue 1, 0106007 (2022)
    Application of Quasi-Distributed High Temperature Sensor Based on Femtosecond Fiber Bragg Grating
    Shuai Liu1, Qi Zeng2, Chaochao Li2, Shaoling He1, Yi Zhang1, Xiaodi Wu1, Weibing Sang1, and Dongming Li1、*
    Author Affiliations
  • 1Department of Fiber Sensing, Hangzhou Applied Acoustic Institute, Hangzhou , Zhejiang 310023, China
  • 2Hunan Power Mechinery Research Institute, Zhuzhou , Hunan 412002, China
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    DOI: 10.3788/LOP202259.0106007 Cite this Article Set citation alerts
    Shuai Liu, Qi Zeng, Chaochao Li, Shaoling He, Yi Zhang, Xiaodi Wu, Weibing Sang, Dongming Li. Application of Quasi-Distributed High Temperature Sensor Based on Femtosecond Fiber Bragg Grating[J]. Laser & Optoelectronics Progress, 2022, 59(1): 0106007 Copy Citation Text show less
    Change in the reflectivity of femtosecond FBG at an annealing temperature of 1000 ºC
    Fig. 1. Change in the reflectivity of femtosecond FBG at an annealing temperature of 1000 ºC
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    Change in the resonant wavelength of femtosecond FBG at an annealing temperature of 1000 ºC
    Fig. 2. Change in the resonant wavelength of femtosecond FBG at an annealing temperature of 1000 ºC
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    Diagram structure of tube packaged femtosecond FBG high temperature sensor
    Fig. 3. Diagram structure of tube packaged femtosecond FBG high temperature sensor
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    Temperature cycling of 4 femtosecond FBG high temperature sensors with different initial wavelengths. (a) 1530 nm; (b) 1535 nm; (c) 1540 nm; (d) 1545 nm
    Fig. 4. Temperature cycling of 4 femtosecond FBG high temperature sensors with different initial wavelengths. (a) 1530 nm; (b) 1535 nm; (c) 1540 nm; (d) 1545 nm
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    Quasi-distributed temperature measurement application of cylindrical high temperature components based on femtosecond fiber grating high temperature sensor
    Fig. 5. Quasi-distributed temperature measurement application of cylindrical high temperature components based on femtosecond fiber grating high temperature sensor
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    Measured temperature distribution of three different parts of cylinder samples.(a)Top part;(b)middle part;(c)bottom part
    Fig. 6. Measured temperature distribution of three different parts of cylinder samples.(a)Top part;(b)middle part;(c)bottom part
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    Calibration point /℃Indication error /℃Expanded uncertainty of indication error U /℃(k=2)
    100-0.881.5
    200-2.231.5
    300-4.281.5
    400-4.381.5
    500-1.281.5
    600+1.781.5
    700+3.831.5
    800+2.681.5
    900+0.211.5
    1000-0.231.5
    Table 1. Temperature measurement accuracy of femtosecond FBG high temperature sensor
    Abstract
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    References (22)
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    Shuai Liu, Qi Zeng, Chaochao Li, Shaoling He, Yi Zhang, Xiaodi Wu, Weibing Sang, Dongming Li. Application of Quasi-Distributed High Temperature Sensor Based on Femtosecond Fiber Bragg Grating[J]. Laser & Optoelectronics Progress, 2022, 59(1): 0106007
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    Paper Information
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