Quantitative Mode Quality Characterization in a Leakage Channel Fiber with 100 μm Core Diameter

Fanting Kong; Guancheng Gu; Thomas W. Hawkins; Joshua Parsons; Maxwell Jones; Christopher Dunn; Monica T. Kalichevsky-Dong; Stephen P. Palese; Eric Cheung; Liang Dong

doi:10.1364/SOF.2014.SoW2B.5

Advanced Photonics
OSA Technical Digest (online) (Optica Publishing Group, 2014),
paper SoW2B.5
•https://doi.org/10.1364/SOF.2014.SoW2B.5

Quantitative Mode Quality Characterization in a Leakage Channel Fiber with 100 μm Core Diameter

Fanting Kong, Guancheng Gu, Thomas W. Hawkins, Joshua Parsons, Maxwell Jones, Christopher Dunn, Monica T. Kalichevsky-Dong, Stephen P. Palese, Eric Cheung, and Liang Dong

Specialty Optical Fibers 2014

Barcelona Spain
27–31 July 2014
ISBN: 978-1-55752-820-9

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Multicore Fiber and Fiber Measurements (SoW2B)

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F. Kong, G. Gu, T. W. Hawkins, J. Parsons, M. Jones, C. Dunn, M. T. Kalichevsky-Dong, S. P. Palese, E. Cheung, and L. Dong, "Quantitative Mode Quality Characterization in a Leakage Channel Fiber with 100 μm Core Diameter," in Advanced Photonics, OSA Technical Digest (online) (Optica Publishing Group, 2014), paper SoW2B.5.

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Abstract

We demonstrate a novel white-light interferometry with ~20fs temporal resolution for quantitative mode characterization in a 100μm-core leakage channel fiber, obtaining ~55fs/m intermodal group delay and >~29dB/m higher order modes suppression.

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