87,913 research outputs found
Editorial: The metabolic challenges of immune cells in health and disease
Copyright: © 2015 Frezza and Mauro. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) or licensor are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.CM is supported by the British Heart Foundation Fellowship FS/12/38/29640. CF is funded by the UK Medical Research Council
A spectral-domain method for the electromagnetic scattering from a multilayered sphere buried in a stratified medium
In this work we present a rigorous method to analyze the electromagnetic scattering of an elliptically polarized plane wave by a multilayered sphere buried in a dielectric stratified medium (Fig. 1). The interaction of the electromagnetic radiation with the stratified material is taken into account by means of the transfer-matrix approach: in this way we can consider the stratified medium as an effective single interface. We assume that all media are linear and lossless
Electromagnetic scattering of an inhomogeneous elliptically polarized plane wave by a multilayered sphere
Vectorial spherical-harmonics representation of an inhomogeneous elliptically polarized plane wave
Electromagnetic analysis of intelligent surfaces and metasurfaces
This project aims to develop and validate innovative methods for the
analysis and synthesis of intelligent surfaces and metamaterials, with
special emphasis on electromagnetic and audio waves. The objectives
of the project include the study of existing methods, the formulation of
new solutions and the comparison in terms of performance. Special
emphasis will be placed on the use of artificial intelligence in these highly
innovative fields, including methods based on deep learning.
Metamaterials are designed to manipulate electromagnetic waves,
sound waves, or other physical phenomena in ways that traditional
materials cannot achieve. The applications range from invisibility cloaks
to advanced lensing systems, and they could be used in various
industries, including telecommunications, optics, audio and medical
imaging
Electromagnetic scattering by a buried sphere in a lossy medium of an inhomogeneous plane wave at arbitrary incidence: Spectral-domain method
Strutture dielettriche a band-gap elettromagnetico (EBG): geometrie frattali e caratterizzazione dei difetti
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