Optical fiber fuse effect based sensor for magnetic field monitoring
authors Alberto, N; Domingues, MF; Belo, JH; Marques, C; Antunesa, P; Amaral, V; Andre, P
editors Baldini, F; Homola, J; Lieberman, RA
nationality International
journal OPTICAL SENSORS 2019
author keywords Optical fiber sensor; magnetic field; magnetic fluid; Fabry-Perot micro-cavity; fuse effect
keywords REFRACTIVE-INDEX; SENSITIVITY
abstract Magnetic field sensors have been widely applied in several areas, for instance, in navigation, geophysical, aerospace engineering and biomedical research. The traditional methods used to sense this parameter have drawbacks related with size, stability, multiplexing capability, remote measurement and electromagnetic sensitivity. Due to the characteristics inherent to the optical fiber, including small dimensions, immunity to electromagnetic interference and the possibility of being used in hazardous environments, this technology has great potential for sensing different parameters. In this work, the magnetic field was monitored using a Fabry-Perot micro-cavity. The cavity, produced from the recycling of optical fiber previously destroyed by the catastrophic fuse effect, was filled with magnetic fluid (MF). Then, it was exposed to a magnetic field in the range of 0 to 200 mT, applied transversally to the fiber axis. An overall exponential decrease of the wavelength of the reflection spectrum with the increase of the magnetic field was obtained, with a sensitivity and resolution of 120.5 +/- 4.4 pm/mT and 8.3 mu T, respectively, in the range of 0 to 80 mT (linear behavior). The proposed sensor represents a cost-effective solution for the magnetic field sensing, with an improved performance compared with other devices already reported in the literature.
publisher SPIE-INT SOC OPTICAL ENGINEERING
issn 0277-786X
isbn 978-1-5106-2723-9
year published 2019
volume 11028
digital object identifier (doi) 10.1117/12.2520759
web of science category Engineering, Electrical & Electronic; Instruments & Instrumentation; Optics
subject category Engineering; Instruments & Instrumentation; Optics
unique article identifier WOS:000484773500040
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