Edge states in all-dielectric square-lattice arrays of bianisotropic microwave resonators

• URL: http://arxiv.org/abs/2406.15246v2
• Date: Tue, 6 Aug 2024 09:56:34 GMT
• Title: Edge states in all-dielectric square-lattice arrays of bianisotropic microwave resonators
• Authors: Alina D. Rozenblit, Georgiy D. Kurganov, Nikita A. Olekhno,
• Abstract summary: We numerically and experimentally demonstrate the presence of edge states at the interface between two domains with opposite orientations of the bianisotropic resonators. The considered design opens novel possibilities in constructing optical and microwave structures simultaneously featuring edge states at the interfaces between distinct resonator domains or a resonator domain and free space.
• Score: 0.0
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: We demonstrate that a bianisotropic response associated with a broken mirror symmetry of a dielectric resonator allows opening the bandgap in simple square lattice arrays of such resonators. Realizing the proposed system as an array of high-index ceramic resonators working at GHz frequencies, we numerically and experimentally demonstrate the presence of edge states at the interface between two domains with opposite orientations of the bianisotropic resonators as well as at the boundary between a single domain and free space. For both cases, we characterize the dispersion of edge states, examine their propagation along sharp bends, their resilience towards various types of geometrical defects, and a spin-momentum locked unidirectional propagation in the case of circularly polarized excitation. The considered design opens novel possibilities in constructing optical and microwave structures simultaneously featuring edge states at the interfaces between distinct resonator domains or a resonator domain and free space.

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