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    Journals >Chinese Optics Letters >Volume 16 >Issue 4 >Page 040606 > Article
    • Chinese Optics Letters
    • Vol. 16, Issue 4, 040606 (2018)
    Regenerated fiber Bragg grating for fiber laser sensing at high temperatures
    Yumin Zhang1、2, Dandan Rong1、2, Lianqing Zhu1、2、*, Mingli Dong1、2, and Fei Luo1
    Author Affiliations
  • 1Beijing Engineering Research Center of Optoelectronic Information and Instrument, Beijing Information Science and Technology University, Beijing 100016, China
  • 2Beijing Key Laboratory of Optoelectronic Measurement Technology, Beijing Information Science and Technology University, Beijing 100192, China
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    DOI: 10.3788/COL201816.040606 Cite this Article Set citation alerts
    Yumin Zhang, Dandan Rong, Lianqing Zhu, Mingli Dong, Fei Luo. Regenerated fiber Bragg grating for fiber laser sensing at high temperatures[J]. Chinese Optics Letters, 2018, 16(4): 040606 Copy Citation Text show less
    Schematic of the experimental setup for the high-temperature fiber laser sensing system.
    Fig. 1. Schematic of the experimental setup for the high-temperature fiber laser sensing system.
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    Reflectance spectrum and transmittance spectrum of the seed grating for thermal regeneration.
    Fig. 2. Reflectance spectrum and transmittance spectrum of the seed grating for thermal regeneration.
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    Evolution of the refractive index modulation during the regeneration experiment.
    Fig. 3. Evolution of the refractive index modulation during the regeneration experiment.
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    ASE output spectrum and the fiber laser output spectrum before the thermal generation.
    Fig. 4. ASE output spectrum and the fiber laser output spectrum before the thermal generation.
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    Lasing wavelength evolution at different high temperatures.
    Fig. 5. Lasing wavelength evolution at different high temperatures.
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    Thermal wavelength shift of the fiber laser output and its linear fitting curves during the cooling and heating process.
    Fig. 6. Thermal wavelength shift of the fiber laser output and its linear fitting curves during the cooling and heating process.
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    Reflectance spectrum of the RFBG and its laser spectrum after the regeneration.
    Fig. 7. Reflectance spectrum of the RFBG and its laser spectrum after the regeneration.
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    Wavelength evolution and power stability of the fiber laser at 700°C.
    Fig. 8. Wavelength evolution and power stability of the fiber laser at 700°C.
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    Yumin Zhang, Dandan Rong, Lianqing Zhu, Mingli Dong, Fei Luo. Regenerated fiber Bragg grating for fiber laser sensing at high temperatures[J]. Chinese Optics Letters, 2018, 16(4): 040606
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    Paper Information
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