Differential Forms in Electromagnetics

Antennas and Propagations Symposium Proceedings, Baltimore, MD, 1996, - 4 pages.<br/> The calculus of differential forms has been applied to electromagnetic field theory in several papers and texts, some of which are cited in the references. Despite this work, differential forms are underused in app

J. Electromagn. Waves and Appl., vol. 10, no. 3, pp. 427–438, 1996. <br/>Authors redevelop the scalar and dyadic Green functions of electromagnetic theory using differential forms. The Green dyadic becomes a double form, which is a differential form in one space with coefficients that are forms in a

Proc. Inst. Elec. Eng., vol. 142, no. 4, pp. 326–332, 1995.<br/>This paper develops a new representation for electromagnetic boundary conditions involving a boundary projection operator defined using the interior and exterior products of the calculus of differential forms. This operator expresses bo

<p>Differential evolution has proven itself a very simple while very powerful stochastic global optimizer. It has been applied to solve problems in many scientific and engineering fields. This book focuses on applications of differential evolution in electromagnetics to showcase its achievement and

The calculus of differential forms has significant advatages over traditional methods as a tool for teaching electromagnetic (EM) field theory. First, forms clarify the realationship between field intnsity and flux density, by providing distinct mathematical and graphical representations for the two