Ring core few-mode fiber with radial anisotropy for maximizing the modal density in optical vortex transmission

Manish Sharma; Dhasarathan Vigneswaran; Leslie A. Rusch; Sophie LaRochelle; Bora Ung

doi:10.1364/NOMA.2021.NoTu3C.3

OSA Advanced Photonics Congress 2021
OSA Technical Digest (Optica Publishing Group, 2021),
paper NoTu3C.3
•https://doi.org/10.1364/NOMA.2021.NoTu3C.3

Ring core few-mode fiber with radial anisotropy for maximizing the modal density in optical vortex transmission

Manish Sharma, Dhasarathan Vigneswaran, Leslie A. Rusch, Sophie LaRochelle, and Bora Ung

Novel Optical Materials and Applications 2021

Washington, DC United States
26–29 July 2021
ISBN: 978-1-943580-94-1

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Novel Optical Fibers and Designs (NoTu3C)

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M. Sharma, D. Vigneswaran, L. A. Rusch, S. LaRochelle, and B. Ung, "Ring core few-mode fiber with radial anisotropy for maximizing the modal density in optical vortex transmission," in OSA Advanced Photonics Congress 2021, B. Yang, F. Leo, A. Tauke-Pedretti, S. Arafin, M. Clerici, L. Caspani, L. Busse, M. Kats, J. Fan, W. Ming (Steve) Lee, D. Caplan, N. Parsons, W. Freude, C. Tremblay, D. Hillerkuss, K. Igarashi, H. Elgala, N. Guerrero Gonzalez, R. "Patty" Stabile, K. Jaeger, R. Saive, H. Aziz, and H. Tan, eds., OSA Technical Digest (Optica Publishing Group, 2021), paper NoTu3C.3.

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Abstract

The radially anisotropic ring fiber design has been numerically and theoretical investigated. We show that the proposed waveguiding platform enables the stable co-propagation of vortex modes created using both the TE/TM and HE/EH basis sets.

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