The intensive research in the fifth generation (5G) technology is a clear indication of
technological revolution to meet the ever-increasing demand and needs for high speed …

The in-depth exploration in the future 5G technology symbolizes a revolution in technology
for antenna designers to encounter the all time increasing need as well as demand for …

This paper presents a compact 1× 4 antipodal Vivaldi antenna (AVA) array for 5G millimeter-
wave applications. The designed antenna operates over 24.19 GHz–29.15 GHz and 30.28 …

The rapid increase in the innovation of fifth‐generation (5th G) technology is a critical
indicator of an explosion in technologies that satisfy everyday needs, and antennas for 5G …

In this paper, antipodal Vivaldi antenna is designed for 5th generation (5G) mobile
communication and Ku-band applications. The proposed designed has three layers. The …

A compact with a high gain antipodal Vivaldi antenna (AVA) is implemented for 5G
applications. The proposed AVA dimensions are 24 mm× 50 mm× 1 mm. The …

In this research article, a wideband antipodal Vivaldi antenna (AVA) is presented by
incorporating a negative index metamaterial (NIM). The proposed antenna is designed …

In this paper, we propose a design for an on-glass 5G monopole antenna for a vehicle
window glass. The proposed antenna consists of a monopole resonator, an inductive line …

An analysis of a novel antipodal Vivaldi antenna (AVA) with constant high gain and
enhanced radiation patterns is presented in this paper. The antenna consists of a 1× 4 AVA …

A novel design for Vivaldi antenna is introduced to operate in more than one frequency band
in the millimeter-wave spectrum range with high gain. The proposed Vivaldi antenna is …