利用随机布拉格光栅提高光纤磁场分布式传感的灵敏度

IF 1.1 Q4 OPTICS Optics continuum Pub Date : 2023-10-25 DOI:10.1364/optcon.509943

Antoine Leymonerie, J. Boisvert, Leonie Juszczak, S. Loranger

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引用次数: 0

摘要

我们的研究表明，使用紫外曝光随机光栅 (ROGUE) 可以显著降低偏振法拉第旋转光频域反射仪 (OFDR) 测量的本底噪声。我们将其与未曝光的纺丝光纤进行了比较，后者的 S/P 最小比（信号本底噪声）比使用我们的 ROGUE 时高 20 dB。通过对 S/P 比值变化的导数进行空间滤波（设置量规长度），可实现高灵敏度磁场测量。演示了校准电磁铁空间分辨 B 场测量的示例，它能以 10 厘米的空间分辨率测量低至 10 mT 的磁场。讨论了使用这种 ROGUE 设备进行电流感应的潜力，模拟显示在 40 个探测环的空间分辨率下，本底噪声约为 1 A。

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Enhanced sensitivity distributed sensing of magnetic fields in optical fiber using random Bragg grating

We show that the use of Random Optical Grating using UV Exposure (ROGUE) can significantly reduce the noise floor of an optical frequency domain reflectometry (OFDR) measurement of Faraday rotation in the polarization. We compare it with unexposed spun fiber which shows a S/P minimum ratio (signal noise floor) 20 dB higher than when using our ROGUE. High sensitivity magnetic field measurements are achieved by spatially filtering (setting a gage length) the derivative of the S/P ratio's evolution. Example of a calibrated electromagnet spatially resolved B-field measurement is demonstrated, which can measure fields down to 10 mT with 10 cm spatial resolution. The potential for current sensing using such ROGUE apparatus is discussed and simulation shows a noise floor of around 1 A with 40 probing loops spatial resolution.

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来源期刊

Optics continuum

CiteScore

3.50

自引率

0.00%

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