Written at the graduate level, Generation and Application of High Power Microwaves discusses the basic physics of the generation of microwave and radiofrequency waves in the megawatt power range and the application of these ideas to a range of devices such as klystrons, gyrotrons, and free electron lasers. The book also contains chapters covering the transmission of the power through waveguides and the problems associated with mode conversion in transmission lines. The main application area covered is the heating and current drive in tokamaks and other devices for research into controlled nuclear fusion. Other applications of high power microwave technology are not neglected, and among those discussed are multiple charged ion and soft x-ray sources, electron spin resonance spectroscopy, advanced materials processing, millimeter wave radar, and supercolliders.
Table of Contents
Phelps: Introduction to microwave sources. Petelin: Spontaneous and Stimulated Radiation of Classical Electrons. Bonifacio: High gain free electron laser with waveguide. Eastwood: Computer Modelling of Microwave Sources. Blank: Gyro-Amplifiers. Garven/Parker: Vacuum Microelectronics for Microwave Power Amplifiers. Thumm: Modes and Mode Conversion in Microwave Devices. Faillon: Klystrons and related devices. Vomvoridis: Cyclotron Resonance Effects on a Rectilinear Electron Beam for the Generation of High-Power Microwaves. Cairns: Interaction of Radiation with Plasmas. Fisch: Uses of Intense Microwaves in Tokamaks. Brambilla: The Physics of Ion Cyclotron Heating in Tokamaks. Gormezano: RF systems for heating and current drive. Thumm: Applications of High-Power Microwave Devices. Participants Addresses. Index.
“… should be of lasting value … Students and professionals in high power microwave physics should benefit markedly from a study of this volume.”