Charge Acceleration and the Spatial Distribution of Radiation Emitted by Antennas and Scatterers

An Exploratory Work on the Process of Generating EM Waves with Antennas and Targets

In Charge Acceleration: How Antennas Radiate and Targets Scatter Electromagnetic Fields, the well-qualified and experienced author provides a comprehensive blueprint to understanding the difficult-to-grasp physical phenomenon of EM waves. Specifically, the goal of the work is to provide the reader with a conceptual basis for thinking about and understanding EM radiation. This goal is accomplished by describing an alternative to a rigorous mathematical formalism that may obscure the physical reality of radiation processes. The approach taken in the work seeks to provide maximum relevance regarding how engineers routinely model and design radiating structures as boundary-value problems.

Rather than developing and presenting a formal theoretical foundation of electromagnetic theory, this book instead focuses on various aspects of EM radiation from a variety of different perspectives. Some of the topics covered include:

• The e-field kink model, time-domain results for a simple wire object, and time-domain energy flow and radiation from a straight wire and circular loop
• Additional results for time-domain radiation and radiation from a matched load in the time domain
• Development of TDFARS and TWTD, TDFARS results, development of FDFARS and NEC, and FDFARS results
• Radiation decay of frequency-domain power flow, comparing results from FDFARS and TDFARS, and radiation phenomena and poles

Students and teachers of electromagnetics will find value in the work by being able to better holistically conceptualize the complicated phenomenon of EM waves. Research engineers in related industries may also benefit from the work and be able to use the concepts therein to fuel innovation in both the public and private sectors.

Edmund K. Miller, Los Alamos National Laboratory (Retired), worked as a Senior Scientist at MB Associates, as Manager of Electromagnetics at the Rockwell International Science Center, and as Director of the Electromagnetics Research Operation at General Research Corporation. At Lawrence Livermore National Laboratory, he was leader of the Engineering Research Division and Nuclear Energy Systems Division. He was also a Group Leader at Los Alamos National Laboratory. He is an IEEE Fellow and Editor of the IEEE Student magazine POTENTIALS.

Dragan Poljak, PhD, is a Full Professor in the Department of Electronics and Computing at University of Split, Croatia. He has published more than 160 journals and 250 conference papers, and has authored several books. He is a Senior member of IEEE, a member of the Editorial Board of Eng. Analysis with Boundary Elements, Mathematical Problems in Engineering and IET Science, Measurement & Technology. He is involved in ITER physics EUROfusion collaboration and in the Croatian Center for Excellence in Research for Technological Sciences.

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