期刊
JOURNAL OF PHYSICS-CONDENSED MATTER
卷 35, 期 20, 页码 -出版社
IOP Publishing Ltd
DOI: 10.1088/1361-648X/acc228
关键词
valley edge states; elastic wave; frequency selective routing; phononic crystals
By constructing structures with different topological phases, the transmission path of elastic waves can be controlled selectively based on frequency.
The control of propagation direction or path of edge states is difficult when the chirality of the excitation source and the boundary structures are determined. Here, we studied a frequency-selective routing for elastic wave based on two types of topological phononic crystals (PnCs) with different symmetries. By constructing multiple types of interfaces between different PnCs structures with distinct valley topological phases, the valley edge states of elastic wave could be realized at different frequencies in the band gap. Meanwhile, based on the simulation of topological transport, it is found that the routing path of elastic waves valley edge states highly depends on the operating frequency and the inputting port of the excitation source. By varying the excitation frequency, the transport path can be switched. The results provide a paradigm for the control of elastic wave propagation paths that could be employed for designing the frequency-dependent ultrasonic division devices.
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