Electromagnetic Radiation: Variational Methods, Waveguides and Accelerators

A Treatise on Radiation Theory.- Maxwell's Equations.- Spherical Harmonics.- Relativistic Transformations.- Variational Principles for Harmonic Time Dependence.- Transmission Lines.- Waveguides and Equivalent Transmission Lines.- Rectangular and Triangular Waveguides.- Electromagnetic Fields in Waveguides with Circular Cross Sections.- Reflection and Refraction.- Variational Methods.- Examples of Variational Calculations for Circular Guide.- Steady Currents and Dissipation.- The Impedance Concept in Waveguides.- Accelerators: Microtrons and Synchrotrons.- Synchrotron Radiation.- Diffraction.- Quantum Limitations on Microwave Oscillators.- Relevant Papers of Julian Schwinger.- On the Representation of the Electric and Magnetic Fields Produced by Currents and Discontinuities in Wave Guides. I.- Electron Orbits in the Synchrotron.- On Radiation by Electrons in a Betatron.- On the Classical Radiation of Accelerated Electrons.- The Quantum Correction in the Radiation by Energetic Accelerated Electrons.- Classical Radiation of Accelerated Electrons. II. A Quantum Viewpoint.- Classical and Quantum Theory of Synergic Synchrotron-?erenkov Radiation.- New Approach to Quantum Corrections in Synchrotron Radiation.- On the Radiation of Sound from an Unflanged Circular Pipe.- On the Theory of Diffraction by an Aperture in an Infinite Plane Screen. I.- On the Theory of Diffraction by an Aperture in an Infinite Plane Screen. II..- On the Transmission Coefficient of a Circular Aperture.- On the Theory of Electromagnetic Wave Diffraction by an Aperture in an Infinite Plane Conducting Screen.

From the reviews:

"The series 'Particle Acceleration and Detection' is devoted to monograph texts dealing with all aspects of particle acceleration and detection research and advanced teaching. ... concise accounts of newly emerging important topics that are embedded in a broader framework in order to provide quick but readable access of very new material to a larger audience. The books forming this collection will be of importance for graduate students and active researchers alike." (Current Engineering Practice, 2007)

"Nobel laureate Julian Schwinger (1918-1994) has made seminal contributions not only to quantum field theory, but also to applied electromagnetism. This graduate-level textbook has grown out of his lectures and manuscripts, updated with material by Milton since 1994. It includes a great number of straightforward and challenging exercises and problems, and is targeted to students in physics, electrical engineering and applied mathematics ... . the remarkable mix of fundamental and applied treatments lets me recommend the book to the researcher, too." (Peter Enders, Optics and Photonics News, October, 2007)