Antoine Leymonerie, Jean-Sébastien Boisvert, Léonie Juszczak and Sébastien Loranger
Article (2024)
Open Acess document in PolyPublie and at official publisher |
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Open Access to the full text of this document Published Version Terms of Use: Optica Open Access Publishing Agreement Download (2MB) |
Abstract
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. An 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 the ROGUE apparatus is discussed and simulation shows a noise floor of ∼1 A with 40 probing loops spatial resolution.
Additional Information: | Data availability. Data underlying the results presented in this paper are not publicly available at this time but may be obtained from the authors upon reasonable request. |
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Subjects: |
3100 Physics > 3100 Physics 3100 Physics > 3110 Optics (see also Photon devices, 2505) |
Department: |
Department of Electrical Engineering Department of Engineering Physics |
Funders: | Polytechnique Montréal |
Grant number: | PIED |
PolyPublie URL: | https://publications.polymtl.ca/58953/ |
Journal Title: | Optics Continuum (vol. 3, no. 1) |
Publisher: | Optica |
DOI: | 10.1364/optcon.509943 |
Official URL: | https://doi.org/10.1364/optcon.509943 |
Date Deposited: | 12 Aug 2024 08:53 |
Last Modified: | 30 Sep 2024 05:05 |
Cite in APA 7: | Leymonerie, A., Boisvert, J.-S., Juszczak, L., & Loranger, S. (2024). Enhanced sensitivity distributed sensing of magnetic fields in optical fiber using random Bragg grating. Optics Continuum, 3(1), 94-94. https://doi.org/10.1364/optcon.509943 |
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