Representation of electromagnetic energy around antennas: current research and future directions
In this article, we reconsider the subject of spatiotemporal electromagnetic (EM) energy
around the antenna near field from a fundamental perspective and discuss the use of …
around the antenna near field from a fundamental perspective and discuss the use of …
Nonlinear mutual coupling compensation operator design using a novel electromagnetic machine learning paradigm
AM Alzahed, SM Mikki… - IEEE Antennas and …, 2019 - ieeexplore.ieee.org
We propose a technology that utilizes a unified electromagnetic machine learning (EM-ML)
technique to mitigate the effect of mutual coupling in receiving antenna array configurations …
technique to mitigate the effect of mutual coupling in receiving antenna array configurations …
Enhancing Engineering Electromagnetics Education: A Comparative Analysis of Synchronous and Asynchronous Learning Environments
MR Bilad - International Journal of Essential …, 2023 - journal-center.litpam.com
This study evaluates implementation of asynchronous learning in teaching engineering
electromagnetics module. A group of first-year engineering students participated in the …
electromagnetics module. A group of first-year engineering students participated in the …
Analysis, design, and implementation of a new extremely ultrathin 2-D-isotropic flexible energy harvester using symmetric patch FSS
A Ghaneizadeh, M Joodaki, J Börcsök… - IEEE Transactions …, 2020 - ieeexplore.ieee.org
Electromagnetic (EM) energy exists far and wide in the environment and can be harnessed
and transferred to the desired load (s). The researchers mostly designed and implemented …
and transferred to the desired load (s). The researchers mostly designed and implemented …
Antenna Mutual Coupling in Near-Field: Insights Using EM Lagrangian Density and Complex Helicity
In this letter, we provide new insights into the mutual coupling between antennas, using
spatial distribution of period-averaged electromagnetic (EM) Lagrangian density and …
spatial distribution of period-averaged electromagnetic (EM) Lagrangian density and …
Theory of Electromagnetic Radiation in Nonlocal Metamaterials---Part I: Foundations
S Mikki - Progress In Electromagnetics Research B, 2020 - jpier.org
Nonlocal radiating systems are new functional structures composed of externally applied
currents radiating in nonlocal material domains, for example hot plasma, optically active …
currents radiating in nonlocal material domains, for example hot plasma, optically active …
Dynamics of antenna reactive energy using time-domain IDM method
A general computational paradigm, the time-domain infinitesimal dipole model (IDM)
method, is developed and applied to compute reactive energy and radiated power for …
method, is developed and applied to compute reactive energy and radiated power for …
Poynting localized energy: Method and applications to gain enhancement in coupled antenna systems
We present a general and comprehensive approach to evaluate spatio-temporal localized
energy around radiating structures of arbitrary shapes and excitation signals. The method …
energy around radiating structures of arbitrary shapes and excitation signals. The method …
Proca metamaterials, massive electromagnetism, and spatial dispersion
S Mikki - Annalen der Physik, 2021 - Wiley Online Library
A class of electromagnetic metamaterials (MTMs) is investigated, which the author dubs
Proca MTMs, constituting a medium behaving like a “relativistic material” for potential use in …
Proca MTMs, constituting a medium behaving like a “relativistic material” for potential use in …
Theory of Electromagnetic Radiation in Nonlocal Metamaterials---Part II: Applications
S Mikki - Progress In Electromagnetics Research B, 2020 - jpier.org
We deploy the general momentum space theory developed in Part I in order to explore
nonlocal radiating systems utilizing isotropic spatially-dispersive metamaterials. The …
nonlocal radiating systems utilizing isotropic spatially-dispersive metamaterials. The …