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.