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Non-Hermitian Spin-Hall Effect in Topological Metasurfaces

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Authors

Kiriushechkina, Svetlana
Vakulenko, Anton
Smirnova, Daria
Guddala, Sriram
Komissarenko, Filipp
Allen, Monica
Allen, Jeffery
Khanikaev, Alexander B.

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MetaPress

Abstract

We demonstrate that, for suitable trapping one-dimensional Dirac potentials, there exist guided modes exhibiting spin-dependent field distributions, which may give rise to their different coupling efficiency to the radiative continuum or light-matter coupling properties. For leaky open Dirac metasurfaces this should manifest in different transport and radiative properties of modes of opposite spin 3 the non-Hermitian spin-Hall effect. We use silicon nanophotonic metasurfaces that support pseudo-spin degree of freedom as a testing platform to experimentally confirm such spin-dependent non-Hermitian properties of spin-full photonic Dirac waveguides.

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Book Title

Proceedings of the 13th International Conference on Metamaterials, Photonic Crystals and Plasmonics

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Free Access via publisher site

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DOI

Restricted until

2099-12-31