MaX-1 A Visual Electromagnetics Platform Christian Hafner - Swiss Federal Institute of Technology (ETHZ), Zurich, Switzerland A powerful new graphics platform for creative electromagnetics solutions, MaX-1 combines an authoritative new executable together with advanced tools.

MaX-1 A Visual Electromagnetics Platform Christian Hafner - Swiss Federal Institute of Technology (ETHZ), Zurich, Switzerland A powerful new graphics platform for creative electromagnetics solutions, MaX-1 combines an authoritative new executable together with advanced tools for the visualization and animation of the computations.

by Christian Hafner (Author). A powerful new graphics platform for creative electromagnetics solutions, MaX–1 combines an authoritative new executable together with advanced tools for the visualization and animation of the computations. Highly user–friendly, MaX–1 is designed in the context of understanding how to perform computational electromagnetics and adapt existing techniques to solve a particular problem.

Hafner offers a comparative analysis of the fundamental computational electromagnetics method. Complementary to Max–1: A Visual Electromagnetics Platform, this unique text challenges current thinking and provides guidance through the solution of practical problems. Features Include: ? Outline of Maxwell theory from simple material properties to complex media and wave equations ?

This complementary text to "MaX-1: A Visual Electromagnetics Platform for PCs" also serves as a stand-alone text offering an introduction to modern computational electromagnetics methods based on numeric, semi-analytic and analytic Maxwell solvers.

This complementary text to "MaX-1: A Visual Electromagnetics Platform for PCs" also serves as a stand-alone text offering an introduction to modern computational electromagnetics methods based on numeric, semi-analytic and analytic Maxwell solvers. Coverage spans all theories and tools that are important for computational electromagnetics, including chapters on mathematics, numerical methods, Maxwell theory, etc.

Hafner offers a comparative analysis of the fundamental computational electromagnetics methods and proposes future adaptive strategies. Complementary to Max-1: A Visual Electromagnetics Platform, this unique text challenges current thinking and provides guidance through the solution of practical problems.

Following is a list of notable textbooks in electromagnetism. Krane, Kenneth; Halliday, David; Resnick, Robert (2002). ISBN 978-0-471-40194-0. Sets out the equations using differential forms. Chapter 8 sets out several variants of the equations using exterior algebra and differential forms. Classical electromagnetism and special relativity. Computational electromagnetics. History of electromagnetism.

Christian Valentin Hafner, Swiss electrical engineering educator. Recipient Seymour Cray award for science computing, 1990. Member Electromagnetics Academy. This complementary text to "MaX-1: A Visual Electromagnetics Platform for PCs" also serves as a stand-alone text offering an introduction to modern computational electromagnetics methods based on numeric, semi-analytic and analytic Maxwell solvers.

Hafner, C. MaX-1: A Visual Electromagnetics Platform. Smajic . Mishrikey . Fallahi . Hafner . Vahldieck R. (2008) Efficiency of Various Stochastic Optimization Algorithms in High Frequency Electromagnetic Applications. John Wiley and Sons, Chichester, UK (1998)Google Scholar. In: Krasnogor . Nicosia . Pavone . Pelta D. (eds) Nature Inspired Cooperative Strategies for Optimization (NICSO 2007). Studies in Computational Intelligence, vol 129. Springer, Berlin, Heidelberg.

Christian Hafner, MaX-1: A Visual Electromagnetics Platform (John Wiley & Sons, Chichester, 1998). E. Moreno, D. Erni, and Ch. Hafner, Modeling of discontinuities in photonic crystal waveguides with the multiple multipole method, Phys.