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    Journals >Chinese Optics Letters >Volume 17 >Issue 1 >Page 010601 > Article
    • Chinese Optics Letters
    • Vol. 17, Issue 1, 010601 (2019)
    High-sensitivity FBG microphone with static pressure equalization and optimized response
    Faxiang Zhang1、*, Chang Wang1、**, Xiaolei Zhang1, Shaodong Jiang1, Jiasheng Ni1、3, and Gangding Peng1、2
    Author Affiliations
  • 1Shandong Key Laboratory of Optical Fiber Sensing Technologies, Laser Institute, Qilu University of Technology (Shandong Academy of Sciences), Jinan 250014, China
  • 2School of Electrical Engineering and Telecommunications, The University of New South Wales, NSW 2052, Australia
  • 3College of Precision Instrument and Opto-Electronics Engineering and Key Laboratory of Opto-Electronics Information and Technical Science, Ministry of Education, Tianjin University, Tianjin 300072, China
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    DOI: 10.3788/COL201917.010601 Cite this Article Set citation alerts
    Faxiang Zhang, Chang Wang, Xiaolei Zhang, Shaodong Jiang, Jiasheng Ni, Gangding Peng. High-sensitivity FBG microphone with static pressure equalization and optimized response[J]. Chinese Optics Letters, 2019, 17(1): 010601 Copy Citation Text show less
    Schematic of the proposed FBGM.
    Fig. 1. Schematic of the proposed FBGM.
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    (a) Acoustic model of the FBGM and (b) electric-circuit element analogous to the acoustic model, where l and a are the length and the internal radius of the capillary glass tube, respectively, and V is the volume of the cavity.
    Fig. 2. (a) Acoustic model of the FBGM and (b) electric-circuit element analogous to the acoustic model, where l and a are the length and the internal radius of the capillary glass tube, respectively, and V is the volume of the cavity.
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    Response characteristic curve of the microphone.
    Fig. 3. Response characteristic curve of the microphone.
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    Simulated response of the microphone.
    Fig. 4. Simulated response of the microphone.
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    Simulated responses of the microphones with capillary glass tubes of different internal radii.
    Fig. 5. Simulated responses of the microphones with capillary glass tubes of different internal radii.
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    Photograph of a microphone prototype.
    Fig. 6. Photograph of a microphone prototype.
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    Schematic for the experimental layout.
    Fig. 7. Schematic for the experimental layout.
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    Tested response of the fiber microphone.
    Fig. 8. Tested response of the fiber microphone.
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    (a) Wavelength shift versus static pressure and (b) wavelength shift versus dynamic pressure amplitude of 1000 Hz.
    Fig. 9. (a) Wavelength shift versus static pressure and (b) wavelength shift versus dynamic pressure amplitude of 1000 Hz.
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    Tested temperature sensitivity of the fiber microphone.
    Fig. 10. Tested temperature sensitivity of the fiber microphone.
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    Tested directional characteristics of the fiber microphone.
    Fig. 11. Tested directional characteristics of the fiber microphone.
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    References (19)
    Cited By (7)
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    Faxiang Zhang, Chang Wang, Xiaolei Zhang, Shaodong Jiang, Jiasheng Ni, Gangding Peng. High-sensitivity FBG microphone with static pressure equalization and optimized response[J]. Chinese Optics Letters, 2019, 17(1): 010601
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    Paper Information
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