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W2894401852 abstract "Wave propagation control is of fundamental interest in many areas of physics. It can be achieved with wavelength-scaled photonic crystals, hence avoiding low-frequency applications. By contrast, metamaterials are structured on a deep-subwavelength scale, and therefore usually described through homogenization, neglecting the unit-cell structuration. Here, we show with microwaves that, by considering their inherent crystallinity, we can induce wave propagation carrying angular momenta within a subwavelength-scaled collection of wires. Then, inspired by the quantum valley Hall effect in condensed-matter physics, we exploit this bulk circular polarization to create modes propagating along particular interfaces. The latter also carry an edge angular momentum whose conservation during the propagation allows wave routing by design in specific directions. This experimental study not only evidences that crystalline metamaterials are a straightforward tabletop platform to emulate exciting solid-state physics phenomena at the macroscopic scale, but it also opens the door to crystalline polarized subwavelength waveguides." @default.
W2894401852 created "2018-10-05" @default.
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W2894401852 date "2020-01-16" @default.
W2894401852 modified "2023-10-17" @default.
W2894401852 title "Locally polarized wave propagation through crystalline metamaterials" @default.
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W2894401852 doi "https://doi.org/10.1103/physrevb.101.035127" @default.
W2894401852 hasPublicationYear "2020" @default.
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