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Abstract
The growth in the application of electronic devices across a broad spectrum of military, industrial, commercial and consumer sectors has created a new form of pollution known as noise or radio frequency interference or electromagnetic radiation or electromagnetic interference that can cause interference or malfunctioning of equipment. Therefore, there is a greater need for the effective shielding of components from its adverse effects. This review surveys the shielding materials like metals, for the control of electromagnetic radiations. These materials should exhibit effective shielding performance as well as other appropriate physical properties. To meet this challenge, in this article, a computer code based on a genetic algorithm is developed to optimize losses that come from the material surface.
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No potential conflict of interest was reported by the author(s).
Additional information
Notes on contributors
A. Nouainia
Ahmed Nouainia received the Master degree in physics of soft matter and the MSc degree in sciences physics from faculty of physical mathematics and natural sciences of Tunis (FST). He is a PhD student in Telecommunications at the National Engineering School of Tunis. His research interest is in the electromagnetic modeling of complex structures using MoM methods for microwave and antenna applications.
F. Mejri
Fethi Mejri is currently an associate professor at the Faculty of Science of Bizerte (FSB), Tunisia. He received the diploma of engineer in Electronics from the National Engineering School of Tunis (ENIT), in 1993, and the Diploma of Advanced Study in Analysis of Digital Systems and Processing from the ENIT, in 1998. The doctoral degree in telecommunications from the ENIT, in 2006. His research activities include electromagnetic modeling, design and realization of microwave circuits.
T. Aguili
Taoufik Aguili is currently a Professor in the National Engineering School of Tunis (ENIT), Tunis El Manar University. He is also the director of Communications Systems Laboratory (Syscom) and he is the responsible of research and the master degree in the communications and information's technology Department. His research interests include modeling of microwave systems and nano-devices, numerical methods in electromagnetics, electromagnetic wave phenomena in layered media, integrated transmission lines, waveguides and antennas, and leaky wave phenomena.