Advanced Electromagnetic Engineering

Course Description

Equivalence theorem. Construction of the solutions of electromagnetic problems. Scalar and vector wave equation in absence and presence of sources. Integral equations in electromagnetics. Green s functions for various structures. Radiation and scattering calculations by using moment method (MoM), finite difference method (FD, FDTD), and finite element method (FEM). Periodical structures, soft and hard surfaces, electromagnetic bandgap (EBG) structures, metamaterials and metasurfaces. The full-wave and approximate analysis of periodic structures, Floquet mode theory, homogenization, approximate boundary conditions. Examples of advanced electromagnetic structures.

Study Programmes

Postgraduate doctoral study programme

Literature

Constantine A. Balanis (2012.), Advanced Engineering Electromagnetics, 2nd Edition, Wiley Global Education
S. Maci, Z. Šipuš, A. Freni, A. Mazzinghi, S. Škokić (2012.), Advanced Mathematics for Antenna Analysis, European School of Antennas (ESoA)
Per-Simon Kildal (2015.), Foundations of Antenna Engineering: A Unified Approach for Line-of-Sight and Multipath, Artech House
Douglas H. Werner, Do-Hoon Kwon (2013.), Transformation Electromagnetics and Metamaterials, Springer Science & Business Media

For students

General

ID 154831
  Summer semester
6 ECTS
L3 English Level
L1 e-Learning