Week 1 Why study electromagnetics? Introduction to transmission lines: lumped-element model, transmission line differential equations, impulsive wave propagation and reflection, bounce diagram. Week 2 ...

"FDTD is presently the method of choice for solving most numerical electromagnetics studies. The Inan and Marshall book is a very thorough, yet readable, account of all the details of the method, very ...

CATALOG DESCRIPTION: Introduction to the finite-difference time-domain (FDTD) method in numerical modeling of electromagnetic and optical wave interactions with engineering structures. Topics: finite ...

All the essential topics are included, from the fundamental theorems of surface electromagnetics, to analytical models, general sheet transmission conditions (GSTC), metasurface synthesis, and ...

To prepare engineers for careers in these contemporary fields, the RF and Applied Electromagnetics program provides the fundamental theoretical and applied knowledge for design, analysis, and ...

The Antennas & Electromagnetics Research was established in 1968 with a mission of: High Quality Research backed up by High Quality Measurements. In the past 50 years, the centre has been at the heart ...

Electromagnetics I is the study of fundamental electrostatic and magnetostatic equations building up to the foundation of electrodynamics, Maxwell's Equations. This course is put into an engineering ...

There are several numerical techniques for solving the electromagnetics of interposers and 3D-ICs. By far, the most general-purpose technique in electromagnetics is the finite element method (FEM).

The Center for Photonics, Electromagnetics and Nanoelectronics (CPEN) is to conduct innovative research in novel electromagnetic materials (metamaterials), optoelectronic devices, biosensors, antennas ...