Nature

Finite-Difference Time-Domain Methods for Electromagnetic Wave Propagation in Dispersive Media

Finite-Difference Time-Domain (FDTD) methods have long served as a workhorse for simulating electromagnetic wave propagation. In dispersive media, where material responses vary with frequency, the ...
mccormick.northwestern.edu

Taflove Interviewed by Nature Photonics for his Groundbreaking Contributions in Computational Electromagnetics

Prof. Allen Taflove is featured in the most-recent issue of Nature Photonics (January 2015, Volume 9 No 1 pp1-72) for his pioneering work in computational electromagnetics, specifically the Finite ...
Nature

Finite-Difference Time-Domain Methods in Electromagnetic Simulation

Finite-Difference Time-Domain (FDTD) methods have become a cornerstone in the simulation of electromagnetic phenomena, enabling researchers to solve Maxwell’s equations through discretisation in both ...
mccormick.northwestern.edu

ELEC_ENG 224: Fundamentals of Electromagnetics and Photonics

Introduction to electromagnetic waves in electrical engineering. Topics include: concepts of transmission lines, electrostatics and magnetostatics; Maxwell's equations for time-varying fields; ...
AZOM

Analysis of Electromagnetic Scattering in Metamaterials

A recent article published in APL Materials defines metamaterials as artificial structures composed of subwavelength, atomic, or molecular-level components, possessing unique properties (such as ...