Flexible photonic sensors: investigation of an approach based on ratiometric power in few-mode waveguides for bending measurement
Flexible photonic sensors: investigation of an approach based on ratiometric power in few-mode waveguides for bending measurement
A novel approach to monitor the degree of bending via flexible photonics devices, using ratiometric power variation in a few-mode optical waveguide, is proposed. To demonstrate its feasibility, a sensor exploiting a Bragg grating, approximately aligned to the neutral axis, is designed, fabricated and characterized. The reduced thickness of the proposed planar photonic sensor is uniquely limited by optical confinement requirements, enabling for an ultra-thin and highly flexible planar device, based on all-glass platform. Finite Element Method, Beam Propagation Method and Coupled Mode Theory are employed in the design to model the electromagnetic and mechanical phenomena occurring during the three-point bending test. The experiment demonstrates that the planar device withstands tight curvature without mechanical failure. The device shows that by increasing the bending the reflected power from the fundamental mode decreases and the reflected power from the higher order mode increases. The measured ratiometric power sensitivity versus displacement is KPR=−0.78dB/mm with negligible variation over a 40°C thermal range. Therefore, exploiting both the Bragg wavelength shift and the mode optical power change, the proposed sensor can be employed for multiparameter sensing purposes, e.g. simultaneous temperature and curvature monitoring.
bending, Bragg grating, Coupled mode theory, flexible photonics, optical fiber sensor
29166-29174
Annunziato, Andrea
66077841-25a7-4a6b-b133-bd94cd1b36a5
Godfrey, Mike
0ae36073-9796-474e-8de7-6aaf1ede8dbb
Anelli, Francesco
5da88525-6c26-41eb-b9b6-04b561cad8bc
Dulieu-Barton, Janice
84bb813f-8e32-4be1-9370-2b3a152888c0
Holmes, Christopher
16306bb8-8a46-4fd7-bb19-a146758e5263
Prudenzano, Francesco
a650c97a-97ca-4791-b93f-dbd9ac693048
22 February 2024
Annunziato, Andrea
66077841-25a7-4a6b-b133-bd94cd1b36a5
Godfrey, Mike
0ae36073-9796-474e-8de7-6aaf1ede8dbb
Anelli, Francesco
5da88525-6c26-41eb-b9b6-04b561cad8bc
Dulieu-Barton, Janice
84bb813f-8e32-4be1-9370-2b3a152888c0
Holmes, Christopher
16306bb8-8a46-4fd7-bb19-a146758e5263
Prudenzano, Francesco
a650c97a-97ca-4791-b93f-dbd9ac693048
Annunziato, Andrea, Godfrey, Mike, Anelli, Francesco, Dulieu-Barton, Janice, Holmes, Christopher and Prudenzano, Francesco
(2024)
Flexible photonic sensors: investigation of an approach based on ratiometric power in few-mode waveguides for bending measurement.
IEEE Access, 12, .
(doi:10.1109/ACCESS.2024.3368885).
Abstract
A novel approach to monitor the degree of bending via flexible photonics devices, using ratiometric power variation in a few-mode optical waveguide, is proposed. To demonstrate its feasibility, a sensor exploiting a Bragg grating, approximately aligned to the neutral axis, is designed, fabricated and characterized. The reduced thickness of the proposed planar photonic sensor is uniquely limited by optical confinement requirements, enabling for an ultra-thin and highly flexible planar device, based on all-glass platform. Finite Element Method, Beam Propagation Method and Coupled Mode Theory are employed in the design to model the electromagnetic and mechanical phenomena occurring during the three-point bending test. The experiment demonstrates that the planar device withstands tight curvature without mechanical failure. The device shows that by increasing the bending the reflected power from the fundamental mode decreases and the reflected power from the higher order mode increases. The measured ratiometric power sensitivity versus displacement is KPR=−0.78dB/mm with negligible variation over a 40°C thermal range. Therefore, exploiting both the Bragg wavelength shift and the mode optical power change, the proposed sensor can be employed for multiparameter sensing purposes, e.g. simultaneous temperature and curvature monitoring.
Text
Flexible_Photonic_Sensors_Investigation_of_an_Approach_Based_on_Ratiometric_Power_in_Few-Mode_Waveguides_for_Bending_Measurement
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More information
Accepted/In Press date: 17 February 2024
Published date: 22 February 2024
Keywords:
bending, Bragg grating, Coupled mode theory, flexible photonics, optical fiber sensor
Identifiers
Local EPrints ID: 500565
URI: http://eprints.soton.ac.uk/id/eprint/500565
ISSN: 2169-3536
PURE UUID: 85f469e6-f923-40cc-83f2-405acb883235
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Date deposited: 06 May 2025 16:44
Last modified: 22 Aug 2025 01:56
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Contributors
Author:
Andrea Annunziato
Author:
Mike Godfrey
Author:
Francesco Anelli
Author:
Janice Dulieu-Barton
Author:
Francesco Prudenzano
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