Abstract
In this article we present an all-fiber vector bend sensor by means of a self-fabricated micro-structured multicore optical fiber. The reported solution is based on differential intensity variations of the light transmitted along the cores whose changes are influenced by the bending angle and orientation. The unique asymmetric structure of the air-holes in the optical fiber provides each core with different confinement losses of the fundamental mode depending on the bending radius and orientation, making each of the cores bend-sensitive in a range of at least 80°. It has been experimentally demonstrated that the reported sensor enables the bending angle and orientation to be detected in a full range of 360° without any dead-zones, and the possibility of end point detection with millimeter precision. Additionally, a reconstruction of the bending vector has been carried out theoretically, and a good match can be observed between the experimental and theoretical data.
Highlights
B ENDING deformation measurement plays an important role in the fields of structural health monitoring (SHM)
In this paper we present, to the best of our knowledge, the first optical fiber bend sensing solution based on differential light-intensity variations in a micro-structured 7-core multicore fibers (MCFs) with an asymmetric air-hole structure
Due to this asymmetric structure of air-holes, each of the 6 sensing cores of the MCF is characterized by presenting different confinement losses of the fundamental mode at different bends
Summary
B ENDING deformation measurement plays an important role in the fields of structural health monitoring (SHM). Color versions of one or more of the figures in this article are available online at https://ieeexplore.ieee.org. In this paper we present, to the best of our knowledge, the first optical fiber bend sensing solution based on differential light-intensity variations in a micro-structured 7-core MCF with an asymmetric air-hole structure. Due to this asymmetric structure of air-holes, each of the 6 sensing cores of the MCF is characterized by presenting different confinement losses of the fundamental mode at different bends This feature allows the detection of the bending intensity and orientation in the full 360° range with no dead-zones and a precision in the fiber-end detection of millimeter resolution by just employing a power meter as a detector. The presented method of intensity-measurement provides for simplicity of the architecture and robustness in comparison to other conventional techniques for vector bending sensing
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