Now available for the first time in English translation, this important book contains extensive material relating to the electrodynamic characteristics of linear accelerators, and gives a good overview of the fundamentals of accelerating cavity design. The authors describe the experimental methods and measurement techniques essential in this area of research, and provide comprehensive data about the electrodynamic characteristics of resonant structures, which are widely used in charged particle accelerators and microwave devices. Single cavities and coupling chains, excited in electrical and magnetic modes, are described numerically and analyzed in detail. The book also provides a valuable description of the perturbation method, which is illustrated using a unique collection of data.
Table of Contents
1. Accelerating Structures of Linear Accelerators 2. Couplers and Coupling Elements 3. E-Type Accelerating Structures 4. H-Type Resonators 5. Measurement of Accelerating Cavities 6. Linear Resonant Cavity Accelerators
7. Electrodynamic Modeling of Accelerating Cavities 8. Calculation of Integrals
Sobenin, N P; Zverev, B V