High-gain reconfigurable polarization antenna based on metamaterial array for Terahertz applications

Abstract: This paper suggestsproposes a high-gain reconfigurable polarization antenna using a metasurface polarizaer. The metasurface polarizer is a rectangular array that consists of similar 25 unit-cell elements. Each metamaterial (MM) unit-cell element consists of a circular copper patch attached to two copper arrow-shaped strips installed at its circumference. The circular patch and two arrows are installed between a rectangular superstrate at the top and a rectangular substrate at the bottom, which is backed with a… Show more

“…A compact, gain-enhanced Vivaldi antenna for 5G millimeterwave applications with dimensions of 5.5 × 12 mm 2 demonstrates an effective bandwidth of 22.5-45 GHz, covering 5G's spectrum up to 70 GHz [8]. A two-port AVA with graphene construction offers higher gain for THz purposes than traditional conductive copper, providing fully reconfigurable functionality from 3 to 4.5 THz [9]. A portable Vivaldi antenna, measuring 36 × 36 mm 2 and utilizing FR-4 as the dielectric material, provides a gain of 8.5 dB across a frequency range of 3 to 10.6 GHz [10].…”

A Miniaturized and High-gain Antipodal Vivaldi Antennas Using Directors

“…A compact, gain-enhanced Vivaldi antenna for 5G millimeterwave applications with dimensions of 5.5 × 12 mm 2 demonstrates an effective bandwidth of 22.5-45 GHz, covering 5G's spectrum up to 70 GHz [8]. A two-port AVA with graphene construction offers higher gain for THz purposes than traditional conductive copper, providing fully reconfigurable functionality from 3 to 4.5 THz [9]. A portable Vivaldi antenna, measuring 36 × 36 mm 2 and utilizing FR-4 as the dielectric material, provides a gain of 8.5 dB across a frequency range of 3 to 10.6 GHz [10].…”

A Miniaturized and High-gain Antipodal Vivaldi Antennas Using Directors

Design and optimization of meandered plasmonic MIMO antenna with defected ground structure showing ultra-wideband response and high isolation for 6G/TWPAN communication

Terahertz microstrip array antenna with metasurface polarization conversion using silicon dioxide as dielectric layer