Valley Hall Elastic Edge States in Locally Resonant Metamaterials |
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Authors: | Wenbo Fang Chunyu Han Yuyang Chen Yijie Liu |
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Affiliation: | School of Civil Engineering, Guangzhou University, Guangzhou 510006, China; (W.F.); (C.H.); (Y.C.) |
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Abstract: | This paper presents a locally resonant metamaterial periodically rearranged as a local resonator, that is hexagonal holes arranged in a thin plate replace the elastic local resonator to achieve the quantum valley Hall effect. Due to the symmetry in the primitive hexagonal lattice, one Dirac point emerges at high symmetry points in the Brillouin zone in the sub-wavelength area. Rotating the beam element of the resonator can break the spatial inversion symmetry to lift the Dirac degeneracy and form a new bandgap. Thus, the band inversion is discovered by computing the relationship between the associated bandgap and the rotational parameter. We also confirmed this result by analyzing the vortex chirality and calculating the Chern number. We can discover two kinds of edge states in the projected band obtained by computing the supercell composed of different topological microstructures. Finally, the propagation behavior in various heterostructures at low frequencies was analyzed. It is shown that these valley Hall elastic insulators can guide elastic waves along sharp interfaces and are immune to backscattering from defects or disorder. By utilizing elastic resonators, a simple reconfigurable topological elastic metamaterial is realized in the sub-wavelength area. |
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Keywords: | quantum valley Hall effect hexagonal lattice locally resonant metamaterial |
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