We report an in-fiber magnetic field sensor based on magneto-driven optical loss effects, while being implemented in a ferrofluid infiltrated microstructured polymer optical fiber. We demonstrate that magnetic field flux changes up to 2000 gauss can be detected when the magnetic field is applied perpendicular to the fiber axis. In addition, the sensor exhibits high polarization sensitivity for the interrogated wavelengths, providing the possibility of both field flux and direction measurements. The underlying physical and guidance mechanisms of this sensing transduction are further investigated using spectrophotometric, light scattering measurements, and numerical simulations, suggesting photonic Hall effect as the dominant physical, transducing mechanism.

A loss-based, magnetic field sensor implemented in a ferrofluid infiltrated microstructured polymer optical fiber / A., Candiani; A., Argyros; S. G., Leon Saval; R., Lwin; Selleri, Stefano; S., Pissadakis. - In: APPLIED PHYSICS LETTERS. - ISSN 1077-3118. - 104:(2014), pp. 111106-1-111106-6. [10.1063/1.4869129]

A loss-based, magnetic field sensor implemented in a ferrofluid infiltrated microstructured polymer optical fiber

SELLERI, Stefano;
2014-01-01

Abstract

We report an in-fiber magnetic field sensor based on magneto-driven optical loss effects, while being implemented in a ferrofluid infiltrated microstructured polymer optical fiber. We demonstrate that magnetic field flux changes up to 2000 gauss can be detected when the magnetic field is applied perpendicular to the fiber axis. In addition, the sensor exhibits high polarization sensitivity for the interrogated wavelengths, providing the possibility of both field flux and direction measurements. The underlying physical and guidance mechanisms of this sensing transduction are further investigated using spectrophotometric, light scattering measurements, and numerical simulations, suggesting photonic Hall effect as the dominant physical, transducing mechanism.
2014
A loss-based, magnetic field sensor implemented in a ferrofluid infiltrated microstructured polymer optical fiber / A., Candiani; A., Argyros; S. G., Leon Saval; R., Lwin; Selleri, Stefano; S., Pissadakis. - In: APPLIED PHYSICS LETTERS. - ISSN 1077-3118. - 104:(2014), pp. 111106-1-111106-6. [10.1063/1.4869129]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11381/2711494
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