摘要
Valley topological photonic crystals(TPCs),which are robust against local disorders and structural defects,have attracted great research interest,from theoretical verification to technical applications.However,previous works mostly focused on the robustness of topologically protected edge states and little attention was paid to the importance of the photonic bandgaps(PBGs),which hinders the implementation of various multifrequency functional topological photonic devices.Here,by systematically studying the relationship between the degree of symmetry breaking and the working bandwidth of the edge states,we present spoof surface plasmon polariton valley TPCs with broadband edge states and engineered PBGs,where the operation frequency is easy to adjust.Furthermore,by connecting valley TPCs operating at different frequencies,a broadband multifunctional frequency-dependent topological photonic device with selectively directional light transmission is fabricated and experimentally demonstrated,achieving the functions of wavelength division multiplexing and add–drop multiplexing.We provide an effective and insightful method for building multi-frequency topological photonic devices.
基金
supported by the National Natural Science Foundation of China(Grant Nos.62175180,62005193,11874245,and 12004425)
the National Key Research and Development Program of China(Grant No.2017YFA0701004)
the Natural Science Foundation of Jiangsu Province(Grant No.BK20200630).
