Abstract
Here, a broadband topological valley-locked waveguide state (TVWS) of elastic wave with adjustable mode width is reported in the phononic crystal plate with asymmetric double-sided pillars. The broadband topological bandgap is achieved by adjusting the height of triangular pillars. The TVWS with adjustable mode width is realized by adding a pillared phononic crystal (PPnC) with Dirac points between two valley PPnCs with distinct topological phase. The TVWS of elastic wave exhibits the properties of gapless dispersion and robustness against bends and disorders. Based on the TVWS, an elastic valley-locked waveguide splitter with variable mode width is further demonstrated.
Acknowledgment
The authors also gratefully acknowledge the contributions of the Editors and reviewers and their comments have significantly enhanced the quality of this paper.
Data availability
The data that support the findings of this study are available from the corresponding author upon reasonable request.
Competing interests
The authors declare no competing interests.