Acta Photonica Sinica, Volume. 51, Issue 10, 1006003(2022)
High-Frequency Fiber Bragg Grating Accelerometer Based on Symmetric Flexible Hinges(Invited)
References(18)
[1] Y DU, Q HAN, H F HU et al. High-sensitivity refractive index and temperature sensor based on cascading FBGs and droplet-like fiber interferometer. Sensors and Actuators A: Physical, 299, 1-7(2019).
[2] Yun WANG, Yutang DAI, Wenmin LIU et al. Optimization design of fiber Bragg grating two-dimensional accelerometer based on flexure hinge. Acta Photonica Sinica, 48, 0806003(2018).
[3] Zhenan JIA, Kaiqing YANG, Xianfeng ZHAO et al. A new FBG thermal liquid flow sensor. Acta Photonica Sinica, 48, 0206002(2021).
[4] Dequan FENG, Xiaodong LUO, Wei FAN et al. Strain sensing performance of material packaged fiber Bragg grating in wide temperature rang. Acta Optica Sinica, 41, 1306002(2021).
[5] Yilun ZHANG, Zhichao YU, Tianyue HU et al. Multi-trace joint downhole microseismic phase and arrival picking method based on U-Net. Chinese Journal of Geophysics, 64, 2073-2085(2021).
[6] W Y MA, H ZHANG, L C ZHANG et al. Minature on-fiber extrinsic Fabry-Perot interferometric vibration sensors based on micro-cantilever beam. Nanotechnology Reviews, 8, 293-298(2019).
[7] F G CERVANTES, L KUMANCHIK, J T PRATT et al. High sensitivity optomechanical reference accelerometer over 10 kHz. Applied Physsics Letters, 104, 221111(2014).
[8] Z H ZHAO, Z H YU, K CHEN et al. A fiber-optic fabry-perot accelerometer based on high-speed white light interferometry demodulation. Jouranl Lightwave Technology, 36, 1562-1567(2018).
[9] T L LI, C Y SHI, Y G TAN et al. A diaphragm type fiber Bragg grating vibration sensor based on transverse property of optical fiber with wemperature compensation. IEEE Sensors Journal, 17, 1021-1029(2017).
[10] Q P LIU, X HE, X G QIAO et al. Design and modeling of a high sensitivtiy fiber Bragg grating-based accelerometer. IEEE Sensors Journal, 19, 5439-5445(2019).
[11] B YAN, L LIANG. A novel fiber Bragg grating accelerometer based on parallel double flexible hinges. IEEE Sensors Journal, 20, 4713-4718(2020).
[12] T GUO, T X ZHANG, Y Z LI et al. Highly sensitive FBG seimometer with a 3D-printed hexagonal configuration. Journal of Lightwave Technolog, 38, 4588-4595(2020).
[13] Xiangyu WANG, Xueguang QIAO, Dakuan YU. Refractive index insensitive two parameter sensor based on dual mode LPFG. Opto-electronic Engineering, 48, 200247(2021).
[14] H WANG, L LIANG, X B ZHOU et al. New fiber Bragg grating three-dimensional accelerometer based on composite flexure hinges. Sensors, 21, 4715(2021).
[15] Y K YONG, T F LU, D C HANDLEY. Review of circular flexure hinge design equations and derivation of empirical formulations. Precision Engineering, 32, 63-70(2008).
[18] Q P LIU, X G QIAO, Z A JIA et al. Large frequency range and high sensitivity fiber Bragg grating accelerometer based on double diaphragms. IEEE Sensors Journal, 14, 1499-1504(2014).
[19] W LI, D Z JIANG, L L YU et al. A novel miniaturized fiber Bragg grating vibration sensor. IEEE Sensors Journal, 19, 11932-11940(2019).
[20] Y S ZHANG, X G QIAO, Q P LIU et al. Study on a fiber Bragg grating accelerometer based on compliant cylinder. Optical Fiber Technology, 26, 229-233(2015).
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Dakuan YU, Xiangyu WANG, Hong GAO, Qinpeng LIU, Wei FAN, Xueguang QIAO. High-Frequency Fiber Bragg Grating Accelerometer Based on Symmetric Flexible Hinges(Invited)[J]. Acta Photonica Sinica, 2022, 51(10): 1006003
Paper Information
Category: Fiber Optics and Optical Communications
Received: May. 15, 2022
Accepted: Jun. 27, 2022
Published Online: Nov. 30, 2022
The Author Email: YU Dakuan (yudakuan04@163.com)
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