Reconfigurable High-Efficiency metadevice using Kirigami-Inspired phase gradient metasurfaces

Abstract

Kirigami-inspired metasurface has attracted great attention in electromagnetic (EM) wave manipulations, due to its unprecedented and tailorable structural transformations via mechanical approaches. However, it is still challenging for wavefront control because of its unfeasibility in forming a phase gradient at different folding angle β. Here, we report a strategy of kirigami-inspired reconfigurable phase gradient metasurfaces to efficiently control beam steering of scattering wave through mechanically changing β, where the control range of β is theoretically derived based on EM diffraction and generalized Snell’s law. For demonstration, reconfigurable anomalous reflectors with high efficiency are demonstrated in both dual-element and tri-element tunable metadevices. In former case, the reflection angle varies within 37°∼47° under polarization along y axis by changing β within the range of 10°∼40°, whereas it varies within 36°∼50° under that along x axis when β is changed within 10°∼39°, and numerical and experimental results show measured efficiency of beam steering over 78.6%. In latter case, the reconfigurable tri-element metadevice with various folding states are also experimentally characterized to further verify our strategy. Compared with available metasurfaces, our reconfigurable strategy using maneuverable structures to control EM wave is more versatile and shows great potential in engineering applications.