Double-ridged horn antenna for millimeter-wave applications

In this article, the design and analysis of a double-ridged conical horn antenna with high gain and low cross polarization for wideband applications is presented. Doubleridged pyramidal horn antennas have been investigated in many references. There are no papers in the literature which are devoted t

## Abstract Air‐filled patch antennas for millimeter‐wave (mm‐wave) applications are demonstrated using silicon‐based micromachining techniques. The antennas are fed by rectangular coaxial lines and made of five gold plated layers bonded together. Each layer is made by deep reactive etching on sili

## Abstract This paper demonstrates the suitability of the finite‐volume time‐domain (FVTD) method to analyse electromagnetic ‘real‐world’ problems. As a challenging example, a 1–18 GHz broadband double‐ridged horn antenna is chosen. The horn antenna consists of non‐orthogonal and curved parts and

Separate-type slot antennas were fabricated by physically joining a slot antenna produced on a Si substrate with a Bi bolometer produced on a quartz substrate through the isolation layer. Receiving properties for the millimeter wave radiation of the fabricated slot antenna were investigated theoreti

## Abstract The radiation characteristics of a new millimeter‐wave omnidirectional circular rod antenna with double dielectric gratings are analyzed using the rigorous mode‐matching method. The results indicate that under the condition of the same radiation intensity, the double‐grating antenna has