Topologically protected singularities in reflection coefficients of transdimensional plasmonic systems produce millimeter-scale Goos-Hänchen shifts in the visible spectrum.
Goos-H\"anchen effect singularities in transdimensional plasmonic films
2 Pith papers cite this work. Polarity classification is still indexing.
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abstract
We identify and classify topologically protected singularities for the reflection coefficient of transdimensional plasmonic systems. Originating from nonlocal electromagnetic response due to vertical electron confinement in the system, such singularities lead to lateral (angular) Goos-H\"anchen shifts on the millimeter (milliradian) scale in the visible range, greatly exceeding those reported previously for artificially designed metasurfaces, offering new opportunities for quantum material development.
verdicts
UNVERDICTED 2representative citing papers
Calculations indicate that thickness reduction in transdimensional metals enables room-temperature Wigner crystallization of electrons into a supersolid 2D triangular lattice with reversible phase behavior and inverted resistivity response.
citing papers explorer
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Goos-H\"anchen effect singularities in transdimensional plasmonic films
Topologically protected singularities in reflection coefficients of transdimensional plasmonic systems produce millimeter-scale Goos-Hänchen shifts in the visible spectrum.
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Crystallization of the transdimensional electron liquid
Calculations indicate that thickness reduction in transdimensional metals enables room-temperature Wigner crystallization of electrons into a supersolid 2D triangular lattice with reversible phase behavior and inverted resistivity response.