Abstract
Multilayer metasurfaces have attracted much attention for broad bandwidth and high transmission efficiency. However, the electromagnetic (EM) coupling will be significant and greatly affect the transmission performance when the inter-layer distance is in subwavelength scale. Here, we present a generally equivalent circuit approach (ECA) that can be used to investigate the transmission performance and the near-field coupling mechanism in multilayer metasurfaces. Based on the proposed ECA, the analytical expression of transmission coefficient is obtained. The accuracy of the circuit model is further verified by several typical multilayer metasurfaces in ultrawideband from 0 to 30 GHz. The proposed method is valid for an arbitrary multilayer metasurface system, regardless of the layer number and the metallic elements.
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