Influence of nonlinear effects on forward stimulated Brillouin scattering distributed sensing

Yang, Yu-Lian; Li, Liming; Deng, Qing-Xue; Jia, Xin-Hong; Liang, Wen-Yan; Jiang, Li Jun; Song, Wei-Jie; Mou, Xin-Yang

doi:10.7498/aps.71.20220313

Acta Phys. Sin.

2022

DOI: 10.7498/aps.71.20220313

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Influence of nonlinear effects on forward stimulated Brillouin scattering distributed sensing

Yu-Lian Yang¹,

Liming Li²,

Qing-Xue Deng³

et al.

Abstract: The impacts of nonlinear effects on sensing performance of forward stimulated Brillouin scattering (FSBS) were investigated, using opto-mechanical time-domain analysis (OMTDA) sensor as an example. The excitation of FSBS often requires high pulse power (Watt level) because of the lower gain coefficient. Due to the copropagation of reading pulse and scattered light, high-power activation pulses will induce various nonlinear effects in FSBS sensing system. Using the reported method based on activation-reading ti… Show more

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2024

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基于超弱光纤光栅阵列的长距离传感系统

Luo Zhihui,

Xiang Hao,

Xu Bing

2024

激光与光电子学进展

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This paper proposes a longdistance sensing system using ultraweak fiber Bragg grating arrays. By taking advantages of the discrete distribution and high signaltonoise ratio of ultraweak fiber Bragg gratings, this system employs a segmented acquisition method to decrease the requirements for data caching and computing capabilities. For spatial demodulation of the 10 km sensing section, ZYNQ (ZYNQ -7035 All Programmable SoC) embedded hardware is used. To design the input pulse power and Raman fiber amplifier configuration with power balance and dynamic segmented gain control, the OptiSystem software is employed to simulate and analyze the power budget of the system . An experimental system is constructed and validated, showing that the system's operating range can reach 50 km, the fluctuation of sensing signal intensity is less than 2. 2 dB, the spatial resolution is 1. 5 m, the demodulation speed is 0. 3 Hz, the remote demodulation accuracy is within 6 pm, and the measurement accuracy for temperature and strain is ±0. 15 ℃ and ±5. 5 με, respectively. The overall system performance outperforms traditional Brillouin optical timedomain reflectometer and exhibits good scalability while demonstrating significant technical advantages in longdistance fiber temperature and strain sensing.

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基于超弱光纤光栅阵列的长距离传感系统

Luo Zhihui,

Xiang Hao,

Xu Bing

2024

激光与光电子学进展

View full text Add to dashboard Cite

show abstract

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Influence of nonlinear effects on forward stimulated Brillouin scattering distributed sensing

Cited by 1 publication

References 30 publications

基于超弱光纤光栅阵列的长距离传感系统

基于超弱光纤光栅阵列的长距离传感系统

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