Unified coupled-mode theory for geometric and material perturbations in optical waveguides
Unified coupled-mode theory for geometric and material perturbations in optical waveguides
Coupled-mode theory is a powerful tool to understand and control the effects of deployment and fabrication imperfections on optical waveguides. Although it provides many advantages compared to the finite element method, it still lacks the ability to treat geometric and material perturbations when they act simultaneously on the waveguide. This work fills this gap, providing a novel framework for a unified treatment of geometric and material perturbations in the coupled-mode analysis. The proposed approach consists in, first, applying the theory of transformation optics to convert geometric deformation into material perturbations and, second, studying the obtained waveguide by using a custom-developed coupled-mode theory able to deal with perturbations of both the permittivity and the permeability tensor. The framework is applied to three examples: a solid-core fiber affected by intrinsic perturbations, a bent solid-core fiber, and an elliptical hollow-core fiber. Results are validated against simulations based on the finite element method and compared with the standard coupled-mode theory most suitable for each specific example; they show that the proposed unified coupled-mode theory performs consistently better than standard theories, confirming it as a general and accurate tool for the design and analysis of optical waveguides.
Guerra, Gianluca
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Abokhamis Mousavi, Seyed Mohammad
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Taranta, Austin
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Numkam Fokoua, Eric
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Poletti, Francesco
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Galtarossa, Andrea
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Palmieri, Luca
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Santagiustina, Marco
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Guerra, Gianluca
f406b1b8-08e0-47dc-b3a5-41cbdf0462eb
Abokhamis Mousavi, Seyed Mohammad
5cde8762-0a43-461c-a124-857d1aca102b
Taranta, Austin
bc2e834f-0d85-44a1-a874-8150df1f73d9
Numkam Fokoua, Eric
6d9f7e50-dc3b-440a-a0b9-f4a08dd02ccd
Poletti, Francesco
9adcef99-5558-4644-96d7-ce24b5897491
Galtarossa, Andrea
a862a05f-e5bf-4df1-96c5-19f8bf87d29b
Palmieri, Luca
9d29c612-da88-402c-9350-65204947f4bf
Santagiustina, Marco
4cc39ac3-1cf1-4d0d-85cc-17b9f9728f58
Guerra, Gianluca, Abokhamis Mousavi, Seyed Mohammad, Taranta, Austin, Numkam Fokoua, Eric, Poletti, Francesco, Galtarossa, Andrea, Palmieri, Luca and Santagiustina, Marco
(2021)
Unified coupled-mode theory for geometric and material perturbations in optical waveguides.
Journal of Lightwave Technology, 14 (8).
(doi:10.1109/JLT.2022.3167895).
(In Press)
Abstract
Coupled-mode theory is a powerful tool to understand and control the effects of deployment and fabrication imperfections on optical waveguides. Although it provides many advantages compared to the finite element method, it still lacks the ability to treat geometric and material perturbations when they act simultaneously on the waveguide. This work fills this gap, providing a novel framework for a unified treatment of geometric and material perturbations in the coupled-mode analysis. The proposed approach consists in, first, applying the theory of transformation optics to convert geometric deformation into material perturbations and, second, studying the obtained waveguide by using a custom-developed coupled-mode theory able to deal with perturbations of both the permittivity and the permeability tensor. The framework is applied to three examples: a solid-core fiber affected by intrinsic perturbations, a bent solid-core fiber, and an elliptical hollow-core fiber. Results are validated against simulations based on the finite element method and compared with the standard coupled-mode theory most suitable for each specific example; they show that the proposed unified coupled-mode theory performs consistently better than standard theories, confirming it as a general and accurate tool for the design and analysis of optical waveguides.
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UCMT_AM
- Accepted Manuscript
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Unified_coupled-mode_theory_for_geometric_and_material_perturbations_in_optical_waveguides
- Accepted Manuscript
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Accepted/In Press date: 19 April 2021
Identifiers
Local EPrints ID: 457580
URI: http://eprints.soton.ac.uk/id/eprint/457580
ISSN: 0733-8724
PURE UUID: 7f655e6a-1aa2-4342-8f58-8302d3760c39
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Date deposited: 13 Jun 2022 16:45
Last modified: 17 Mar 2024 03:55
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Contributors
Author:
Gianluca Guerra
Author:
Seyed Mohammad Abokhamis Mousavi
Author:
Austin Taranta
Author:
Eric Numkam Fokoua
Author:
Francesco Poletti
Author:
Andrea Galtarossa
Author:
Luca Palmieri
Author:
Marco Santagiustina
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