Polarization-dependent band inversions at Γ and X points in plasmonic nanohole arrays enable polarization-selective 0D and 1D edge states observed via angle-resolved diffraction spectroscopy.
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Nonlinearity tames the skin effect in nonreciprocal active systems to enable stable unidirectional solitonic pulse propagation, shown analytically and in an electrical metamaterial experiment.
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Study of polarization-dependent band inversions and edge states from two-dimensional square lattice plasmonic crystals
Polarization-dependent band inversions at Γ and X points in plasmonic nanohole arrays enable polarization-selective 0D and 1D edge states observed via angle-resolved diffraction spectroscopy.
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Harnessing Nonlinearity to Tame Wave Dynamics in Nonreciprocal Active Systems
Nonlinearity tames the skin effect in nonreciprocal active systems to enable stable unidirectional solitonic pulse propagation, shown analytically and in an electrical metamaterial experiment.