Modal analysis and experimental study of multimode graded-index microstructured fibres for highly efficient supercontinuum generation
Modal analysis and experimental study of multimode graded-index microstructured fibres for highly efficient supercontinuum generation
Microstructured optical fibres (MOFs), also known as Photonic Crystal Fibres (PCFs) or Holey Fibres (HFs), play an important role in supercontinuum generation because of their high nonlinearity and ability to tailor the dispersion profile. Nowadays, studies have extended to the multimode environment to enhance spectral broadening by taking advantage of various intermodal nonlinear effects. Recently, it has been shown that these types of fibres can also be able to provide spatially cleaned output beams through a novel nonlinear spatial effect called Kerr-induced beam self-cleaning (KBSC), which makes these fibres suitable for a variety of multimode-based applications. In this paper, a full modal analysis of germanium (Ge)-doped graded-index multimode PCFs with different geometrical sizes is provided. The influence of fibre size on modal properties, such as effective refractive index, birefringence and dispersion, was investigated using the finite element method. It was found that the changes in the geometric parameters can significantly affect the modal properties and then the frequency generation and spectral broadening. Experimentally, high-efficiency frequency generation with different frequency detunings was obtained in a short length of each PCF by launching input pulses at 1064 nm pump wavelength. For longer fibre length and high input power, supercontinuum generation with improved broadening from visible to near IR by intermodal four-wave mixing and stimulated Raman scattering was observed in all PCFs. A study of the effect of input peak power, input polarization axis and fibre length on supercontinuum spectrum is presented. Experimental evidence of the KBSC effect as a function of various fibre and laser parameters is also reported. The evolution of spatial output beam pattern from higher-order mode to fundamental mode with low-peak-power self-cleaning threshold was observed for all the fibres by launching a 1064 nm pump laser with 1 ns pulse duration.
beam cleaning, finite element method, graded-index, microstructured fibre, multimode fibre, photonic crystal fibre, supercontinuum generation
M.A., Fathima Shabana
ac95c1c1-e1f1-448b-8ad8-501607968a6e
Tombelaine, Vincent
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Huss, Guillaume
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Ghosh, Amar
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Sylvestre, Thibaut
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Auguste, Jean-Louis
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Reynaud, François
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Leproux, Philippe
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Bunge, Christian-Alexander
19 May 2022
M.A., Fathima Shabana
ac95c1c1-e1f1-448b-8ad8-501607968a6e
Tombelaine, Vincent
f9f34493-1389-4858-9045-53ba0e3ddd25
Huss, Guillaume
8fae4f27-138c-43a1-930d-fbbce04fa8ce
Ghosh, Amar
e278484a-8d87-42be-a8ef-6d682e8fa9c3
Sylvestre, Thibaut
b3e3d04b-3a5c-4fb1-be4f-08b943a0912c
Auguste, Jean-Louis
2f43d9fe-d170-4898-917d-2d970811665a
Reynaud, François
45b55a62-a599-49f2-ae45-82b5681e5699
Leproux, Philippe
c344e6da-6209-4577-a2a9-9851bbd7b390
Bunge, Christian-Alexander
M.A., Fathima Shabana, Tombelaine, Vincent, Huss, Guillaume, Ghosh, Amar, Sylvestre, Thibaut, Auguste, Jean-Louis, Reynaud, François and Leproux, Philippe
(2022)
Modal analysis and experimental study of multimode graded-index microstructured fibres for highly efficient supercontinuum generation.
Kalli, Kyriacos, Peterka, Pavel and Bunge, Christian-Alexander
(eds.)
In Proceedings Micro-Structured and Specialty Optical Fibres VII.
vol. 12140,
7 pp
.
(doi:10.1117/12.2624459).
Record type:
Conference or Workshop Item
(Paper)
Abstract
Microstructured optical fibres (MOFs), also known as Photonic Crystal Fibres (PCFs) or Holey Fibres (HFs), play an important role in supercontinuum generation because of their high nonlinearity and ability to tailor the dispersion profile. Nowadays, studies have extended to the multimode environment to enhance spectral broadening by taking advantage of various intermodal nonlinear effects. Recently, it has been shown that these types of fibres can also be able to provide spatially cleaned output beams through a novel nonlinear spatial effect called Kerr-induced beam self-cleaning (KBSC), which makes these fibres suitable for a variety of multimode-based applications. In this paper, a full modal analysis of germanium (Ge)-doped graded-index multimode PCFs with different geometrical sizes is provided. The influence of fibre size on modal properties, such as effective refractive index, birefringence and dispersion, was investigated using the finite element method. It was found that the changes in the geometric parameters can significantly affect the modal properties and then the frequency generation and spectral broadening. Experimentally, high-efficiency frequency generation with different frequency detunings was obtained in a short length of each PCF by launching input pulses at 1064 nm pump wavelength. For longer fibre length and high input power, supercontinuum generation with improved broadening from visible to near IR by intermodal four-wave mixing and stimulated Raman scattering was observed in all PCFs. A study of the effect of input peak power, input polarization axis and fibre length on supercontinuum spectrum is presented. Experimental evidence of the KBSC effect as a function of various fibre and laser parameters is also reported. The evolution of spatial output beam pattern from higher-order mode to fundamental mode with low-peak-power self-cleaning threshold was observed for all the fibres by launching a 1064 nm pump laser with 1 ns pulse duration.
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Published date: 19 May 2022
Additional Information:
Funding Information:
This project has received funding from the European Research Council (ERC) under the European Unions Horizon 2020 research and innovation programme under grant agreement No 722380.
Publisher Copyright:
© 2022 SPIE.
Venue - Dates:
SPIE Photonics Europe 2022, , Strasbourg, France, 2022-04-03 - 2022-05-23
Keywords:
beam cleaning, finite element method, graded-index, microstructured fibre, multimode fibre, photonic crystal fibre, supercontinuum generation
Identifiers
Local EPrints ID: 457917
URI: http://eprints.soton.ac.uk/id/eprint/457917
ISSN: 0277-786X
PURE UUID: 077434a3-2eb1-498e-b499-6024a187b05e
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Date deposited: 22 Jun 2022 16:38
Last modified: 16 Mar 2024 18:04
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Contributors
Author:
Fathima Shabana M.A.
Author:
Vincent Tombelaine
Author:
Guillaume Huss
Author:
Thibaut Sylvestre
Author:
Jean-Louis Auguste
Author:
François Reynaud
Author:
Philippe Leproux
Editor:
Kyriacos Kalli
Editor:
Pavel Peterka
Editor:
Christian-Alexander Bunge
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