Miniaturization of frequency selective surfaces using fractal Koch curves

## Abstract A compact bandstop frequency selective surface (FSS) using fractal structure is proposed. This flexuous design elongates the cell perimeter of the ring‐shaped FSS, which means the cell size gets smaller at the same resonance frequency. Furthermore, the unit cells adopt regular hexagon a

## Abstract In practical applications, frequency‐selective surfaces (FSSs) are finite, and sometimes even curved. In this paper, we present a hybrid volume‐surface integral‐equation approach to analyze the transmission and reflection characteristics of finite and curved FFS structures. The hybrid i

## Abstract The hybrid volume‐surface integral equation approach is proposed to analyze the transmission and reflection characteristics of finite and curved frequency‐selective surfaces structures. The surface current and electric flux density are expanded by surface RWG and volume SWG basis functi

Three-dimensional (3D) full-wave analysis and design of bandpass frequencyselective surfaces (FSSs) is presented. By using the unique features of a unit cell and the periodic boundary conditions, infinite FSSs can be simulated. Wave propagation through FSSs, which is otherwise difficult to quantify,

The dyadic Green's function of frequency-selective surfaces (FSSs) on an anisotropic layer is determined using the Hertz vector-potential method. The structure analyzed is composed by a periodic array of conducting patch elements. Three different patch geometries are considered. The results for the