The rapid growth of nanotechnology has led to the development of many devices with advanced characteristics such as high frequencies Gunn diodes, transistors, nano-antennas etc. Nano-antenna applications are numerous and encompass a variety of fields such as broadband communications, imaging, sensing, energy harvesting, and disease diagnosis. In this research paper, A novel T-shaped nano-antenna was designed and its resonant frequency was analysed. Moreover, parametric investigation had been performed to figure out the effects of T-shaped nano-antenna on Diamond Like Carbon (DLC) material. The momentum model in Advanced Design System (ADS) software was used to simulate the novel T-shaped nano-antenna and the results were directly compared to other nano-antennas. Initial results suggests that the T-shaped nano-antenna had a higher bandwidth and smaller geometrical size when compared to the other nano-antenna at Terahertz frequency.
%0 Journal Article
%1 noauthororeditor
%A Bahar, Ahmad
%A Maricar, Mohamed Ismaeel
%A Richard,
%D 2016
%J International Journal of Antennas (JANT)
%K T-shaped and antenna bandwidth carbon diamond frequency like material resonant
%N 1
%P 15-22
%R 10.5121/jant.2016.2102
%T PRELIMINARY DESIGN AND CHARACTERISATION OF A NOVEL T-SHAPED NANO-ANTENNA ON DIAMOND LIKE CARBON MATERIAL
%U https://airccse.com/jant/papers/2116jant02.pdf
%V 2
%X The rapid growth of nanotechnology has led to the development of many devices with advanced characteristics such as high frequencies Gunn diodes, transistors, nano-antennas etc. Nano-antenna applications are numerous and encompass a variety of fields such as broadband communications, imaging, sensing, energy harvesting, and disease diagnosis. In this research paper, A novel T-shaped nano-antenna was designed and its resonant frequency was analysed. Moreover, parametric investigation had been performed to figure out the effects of T-shaped nano-antenna on Diamond Like Carbon (DLC) material. The momentum model in Advanced Design System (ADS) software was used to simulate the novel T-shaped nano-antenna and the results were directly compared to other nano-antennas. Initial results suggests that the T-shaped nano-antenna had a higher bandwidth and smaller geometrical size when compared to the other nano-antenna at Terahertz frequency.
@article{noauthororeditor,
abstract = {The rapid growth of nanotechnology has led to the development of many devices with advanced characteristics such as high frequencies Gunn diodes, transistors, nano-antennas etc. Nano-antenna applications are numerous and encompass a variety of fields such as broadband communications, imaging, sensing, energy harvesting, and disease diagnosis. In this research paper, A novel T-shaped nano-antenna was designed and its resonant frequency was analysed. Moreover, parametric investigation had been performed to figure out the effects of T-shaped nano-antenna on Diamond Like Carbon (DLC) material. The momentum model in Advanced Design System (ADS) software was used to simulate the novel T-shaped nano-antenna and the results were directly compared to other nano-antennas. Initial results suggests that the T-shaped nano-antenna had a higher bandwidth and smaller geometrical size when compared to the other nano-antenna at Terahertz frequency.
},
added-at = {2023-10-19T11:21:52.000+0200},
author = {Bahar, Ahmad and Maricar, Mohamed Ismaeel and Richard},
biburl = {https://www.bibsonomy.org/bibtex/21921bdd5d92cc91f4192f7f96e746296/ijant},
doi = {10.5121/jant.2016.2102},
interhash = {f9c004d10cccab172823ecce274c628a},
intrahash = {1921bdd5d92cc91f4192f7f96e746296},
issn = {2455 - 7897},
journal = {International Journal of Antennas (JANT)},
keywords = {T-shaped and antenna bandwidth carbon diamond frequency like material resonant},
language = {English},
month = {January},
number = 1,
pages = {15-22},
timestamp = {2023-10-19T11:21:52.000+0200},
title = {PRELIMINARY DESIGN AND CHARACTERISATION OF A NOVEL T-SHAPED NANO-ANTENNA ON DIAMOND LIKE CARBON MATERIAL},
url = {https://airccse.com/jant/papers/2116jant02.pdf},
volume = 2,
year = 2016
}