This work presents a novel THz antenna for 6G wireless and sensing applications, featuring multi-port frequency tunability with MIMO and self-multiplexing capabilities. The antenna consists of four fractal-shape
Antenna design has evolved from bulkier to small portable designs but there is a need for smarter antenna design using machine learning algorithms that can meet today’s high growing demand for smart and fast devices. Here in this research, main focus is
The proposed antenna provides omnidrectional radiation patterns. Further, fidelity factor of the proposed antenna is also calculated and measured. The calculated fidelity factor is suitable for UWB applications. Finally, prototype of the antenna is developed and tested using network analyzer. The ...
The applications of metamaterials (MTM) based on interdigital capacitor (Cint) and via that extends the function of conventional printed antennas to encompass passive wireless sensor at microwave frequencies is presented in this article. The proposed antenna consists of two rectangular arms of Cint ...
This paper proposes a new quad-port Multiple-Input-Multiple-Output antenna with a unique Maze structure Epsilon Negative (ENG) Metamaterial superstrate for 5G NR C-band applications. The suggested 2x2 MIMO antenna has four microstrip antennas with a C-shaped stub inside the slot arranged orthogonal...
In this paper, Antenna is an evergreen field of research because of its never-ending demand in the modern communication era. In this paper metamaterial ant
3.4.Metamaterial antenna design 3.4.1.Types 3.4.2.MESA intended to replace PESA and AESA 3.4.3.New GHz and THz antennas 3.4.4.Plasmonic antenna improvements 3.4.5.Terahertz gap 3.5.Metamaterials in routers 3.6.Metamaterials in 4G and 5G mobile phones ...
from 72.5 to 81 GHz. This antenna design, on a HR-Silicon wafer, has medium to high gain, acceptable directivity, good radiation efficiency, wide bandwidth, and compact size, which is ideal for on-chip automobile radar applications, particularly for the reception stage, considering its wide ...
Near zero index Metamaterial-based SIW antenna for 6G Sub-Terahertz applications 2023, Results in Optics Citation Excerpt : it is demonstrated that thanks to the metamaterial cellules the antenna could suitable for 5G communication applications within the globally harmonized 3.33 GHz to 3.75 GHz range...
Analysis of the metamaterial antenna is presented for a broadband response for THz applications [23]. The superstrate antennas are important as it improves the gain of the design. The size of the design is increased but increase in the gain matter in some applications and thus superstrate ...