Rainbow Archimedean spiral emission from optical fibres

Rainbow Archimedean spiral emission from optical fibres

Abstract We demonstrate a new practical approach for generating multicolour spiral-shaped beams. It makes use of a standard silica optical fibre, combined with a tilted input laser beam. The resulting breaking of the fibre axial symmetry leads to the propagation of a helical beam. The associated out...

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Main Authors: F. Mangini, M. Ferraro, M. Zitelli, V. Kalashnikov, A. Niang, T. Mansuryan, F. Frezza, A. Tonello, V. Couderc, A. B. Aceves, S. Wabnitz
Format: Article
Language:English
Published: Nature Publishing Group 2021-06-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-92313-w
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spelling doaj-458d46492225425c9c66532266bb268f2021-06-27T11:33:47ZengNature Publishing GroupScientific Reports2045-23222021-06-0111111010.1038/s41598-021-92313-wRainbow Archimedean spiral emission from optical fibresF. Mangini0M. Ferraro1M. Zitelli2V. Kalashnikov3A. Niang4T. Mansuryan5F. Frezza6A. Tonello7V. Couderc8A. B. Aceves9S. Wabnitz10Department of Information Engineering (DII), University of BresciaDepartment of Information Engineering, Electronics and Telecommunications (DIET), Sapienza University of RomeDepartment of Information Engineering, Electronics and Telecommunications (DIET), Sapienza University of RomeDepartment of Information Engineering, Electronics and Telecommunications (DIET), Sapienza University of RomeDepartment of Information Engineering (DII), University of BresciaUniversité de Limoges, XLIM, UMR CNRS 7252Department of Information Engineering, Electronics and Telecommunications (DIET), Sapienza University of RomeUniversité de Limoges, XLIM, UMR CNRS 7252Université de Limoges, XLIM, UMR CNRS 7252Department of Mathematics, Southern Methodist UniversityDepartment of Information Engineering, Electronics and Telecommunications (DIET), Sapienza University of RomeAbstract We demonstrate a new practical approach for generating multicolour spiral-shaped beams. It makes use of a standard silica optical fibre, combined with a tilted input laser beam. The resulting breaking of the fibre axial symmetry leads to the propagation of a helical beam. The associated output far-field has a spiral shape, independently of the input laser power value. Whereas, with a high-power near-infrared femtosecond laser, a visible supercontinuum spiral emission is generated. With appropriate control of the input laser coupling conditions, the colours of the spiral spatially self-organize in a rainbow distribution. Our method is independent of the laser source wavelength and polarization. Therefore, standard optical fibres may be used for generating spiral beams in many applications, ranging from communications to optical tweezers and quantum optics.https://doi.org/10.1038/s41598-021-92313-w
collection DOAJ
language English
format Article
sources DOAJ
author F. Mangini
M. Ferraro
M. Zitelli
V. Kalashnikov
A. Niang
T. Mansuryan
F. Frezza
A. Tonello
V. Couderc
A. B. Aceves
S. Wabnitz
spellingShingle F. Mangini
M. Ferraro
M. Zitelli
V. Kalashnikov
A. Niang
T. Mansuryan
F. Frezza
A. Tonello
V. Couderc
A. B. Aceves
S. Wabnitz
Rainbow Archimedean spiral emission from optical fibres
Scientific Reports
author_facet F. Mangini
M. Ferraro
M. Zitelli
V. Kalashnikov
A. Niang
T. Mansuryan
F. Frezza
A. Tonello
V. Couderc
A. B. Aceves
S. Wabnitz
author_sort F. Mangini
title Rainbow Archimedean spiral emission from optical fibres
title_short Rainbow Archimedean spiral emission from optical fibres
title_full Rainbow Archimedean spiral emission from optical fibres
title_fullStr Rainbow Archimedean spiral emission from optical fibres
title_full_unstemmed Rainbow Archimedean spiral emission from optical fibres
title_sort rainbow archimedean spiral emission from optical fibres
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-06-01
description Abstract We demonstrate a new practical approach for generating multicolour spiral-shaped beams. It makes use of a standard silica optical fibre, combined with a tilted input laser beam. The resulting breaking of the fibre axial symmetry leads to the propagation of a helical beam. The associated output far-field has a spiral shape, independently of the input laser power value. Whereas, with a high-power near-infrared femtosecond laser, a visible supercontinuum spiral emission is generated. With appropriate control of the input laser coupling conditions, the colours of the spiral spatially self-organize in a rainbow distribution. Our method is independent of the laser source wavelength and polarization. Therefore, standard optical fibres may be used for generating spiral beams in many applications, ranging from communications to optical tweezers and quantum optics.
url https://doi.org/10.1038/s41598-021-92313-w
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