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High-spatial-resolution φ-OFDR shape sensor based on multicore optical fiber with femtosecond-laser-induced permanent scatter arrays
36
Citations
18
References
2023
Year
Optical MaterialsEngineeringPs ArrayLaser ApplicationsOptical MetrologyFiber OpticsBiomedical EngineeringFiber-optic CommunicationOptical PropertiesOptical SystemsFiber LaserPhotonicsFiber Optic SensingPs-array-inscribed McfShape SensorFiber OpticOptical SensorsMulticore Optical FiberApplied PhysicsLaser-surface InteractionsFlexible OpticsOptical Sensor
An optical fiber φ-OFDR shape sensor with a submillimeter spatial resolution of 200 µm was demonstrated by using femtosecond-laser-induced permanent scatter array (PS array) multicore fiber (MCF). A PS array was successfully inscribed in each slightly twisted core of the 400-mm-long MCF. The two-dimensional (2D) and three-dimensional (3D) shapes of the PS-array-inscribed MCF were successfully reconstructed by using PS-assisted φ-OFDR, vector projections, and the Bishop frame based on the PS-array-inscribed MCF. The minimum reconstruction error per unit length of the 2D and 3D shape sensor was 2.21% and 1.45%, respectively.
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