Harnessing deformation to realize topological phase transition in acoustic metamaterials
ORAL
Abstract
We design a new class of acoustic metamaterials utilizing external force to realize topological phase transition. The proposed structure comprises a triangular array of steel cylinders coated by elastic rubbers in zigzag shape embodied in a water host. With numerical simulations, we show the topological phase of the band gap can pass from trivial to nontrivial when the shape of rubbers is axially compressed and a band inversion process occurs. The inherent link between the band inversion and the topological phase transition in the acoustic system of proposed structures is analogous to that in the electronic system of HgTe/CdTe quantum well structures. The helical edge states can exist along the interface between a topologically nontrivial acoustic metamaterial and a trivial one. Our work provides an easier way to realize topological phase transition in acoustic systems.
*This work was supported by the National Key Research and Development Program of China (2016YFA0301102), the Natural Science Foundation of China (11574163, 61378006, 11304163, and 11374233).
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