Extreme large mode area in single-mode pixelated Bragg fiber

Optics Express
Jean-Paul YehouessiLaurent Bigot

Abstract

This paper reports the design and the fabrication of an all-solid photonic bandgap fiber with core diameter larger than 100 µm, a record effective mode area of about 3700 µm(2) at 1035 nm and robust single-mode behavior on propagation length as short as 90 cm. These properties are obtained by using a pixelated Bragg fiber geometry together with an heterostructuration of the cladding and the appropriated generalized half wave stack condition applied to the first three higher order modes. We detail the numerical study that permitted to select the most efficient cladding geometry and present the experimental results that validate our approach.

References

Jan 7, 2010·Optics Express·Xianyu AoLee W Casperson
Sep 21, 2011·Optics Letters·Svetlana S AleshkinaSébastien Février
Nov 24, 2011·Optics Express·Somnath GhoshBishnu P Pal
Mar 29, 2012·Optics Express·Mette Marie JørgensenThomas Tanggaard Alkeskjold
Oct 6, 2012·Optics Express·Assaad BazYves Quiquempois
Jan 4, 2013·Optics Letters·Simon LefrancoisFrank W Wise
Feb 12, 2014·Optics Express·Xiang PengDavid J Digiovanni
May 3, 2014·Optics Express·Xiuquan MaAlmantas Galvanauskas
Jun 13, 2014·Optics Express·Guancheng GuLiang Dong
Aug 29, 2014·Optics Letters·Deepak JainJayanta K Sahu
Feb 14, 2015·Optics Letters·Jean-Paul YehouessiYves Quiquempois
May 15, 2015·Optics Express·Guancheng GuLiang Dong

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Citations

Apr 3, 2020·Optics Letters·Olivier VanvincqLaurent Bigot
Aug 19, 2016·Applied Optics·Romain DauliatPhilippe Roy
May 16, 2019·Optics Letters·Robin PierronSylvain Lecler
Oct 8, 2021·Optics Express·Damian MichalikRafał Kasztelanic

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