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Polarization domain walls in optical fibres as topological bits for data transmission.


ABSTRACT: Domain walls are topological defects which occur at symmetry-breaking phase transitions. While domain walls have been intensively studied in ferromagnetic materials, where they nucleate at the boundary of neighbouring regions of oppositely aligned magnetic dipoles, their equivalent in optics have not been fully explored so far. Here, we experimentally demonstrate the existence of a universal class of polarization domain walls in the form of localized polarization knots in conventional optical fibres. We exploit their binding properties for optical data transmission beyond the Kerr limits of normally dispersive fibres. In particular, we demonstrate how trapping energy in well-defined train of polarization domain walls allows undistorted propagation of polarization knots at a rate of 28 GHz along a 10 km length of normally dispersive optical fibre. These results constitute the first experimental observation of kink-antikink solitary wave propagation in nonlinear fibre optics.

SUBMITTER: Gilles M 

PROVIDER: S-EPMC5291308 | biostudies-literature | 2017 Feb

REPOSITORIES: biostudies-literature

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Polarization domain walls in optical fibres as topological bits for data transmission.

Gilles M M   Bony P-Y PY   Garnier J J   Picozzi A A   Guasoni M M   Fatome J J  

Nature photonics 20170116 2


Domain walls are topological defects which occur at symmetry-breaking phase transitions. While domain walls have been intensively studied in ferromagnetic materials, where they nucleate at the boundary of neighbouring regions of oppositely aligned magnetic dipoles, their equivalent in optics have not been fully explored so far. Here, we experimentally demonstrate the existence of a universal class of polarization domain walls in the form of localized polarization knots in conventional optical fi  ...[more]

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