Relativistic Magnetrons
Auteur : Vintizenko Igor
The first experiments with relativistic magnetrons (PM), resulted in notable results, in the USA ? Massachusetts Institute of Technology and the USSR - Institute of Applied Physics. Academy of Sciences of the USSR (Gorky), and the Nuclear Physics Research Institute at the Tomsk State University, hundreds of megawatts to several gigawatts with an efficiency of 10-30% were obtained. Relativistic high-frequency electronics has now become one of the fastest growing areas of scientific research. This reference is devoted to theoretical and experimental studies of relativistic magnetrons and is written by a leading expert who worked directly on these systems.
Introduction
Abbreviations
1 Relativistic Magnetrons and Their Difference from Classical Magnetrons
2 Physical Processes in Relativistic Magnetrons
3 Power Sources and Components of Experimental Installations
4 Pulse–Periodic Relativistic Magnetrons
5 Relativistic Magnetrons with Increased Duration of Microwave Radiation Pulse
6 Relativistic Magnetrons with External Coupling of Resonators
Index
Date de parution : 06-2020
15.6x23.4 cm
Date de parution : 09-2018
15.6x23.4 cm
Thèmes de Relativistic Magnetrons :
Mots-clés :
Anode Block; Drift Tube; relativistic power source; Microwave Pulses; high energy physics; High Frequency Field; gas lasers; Microwave Radiation; relativistic high-frequency electronics; Inter-electrode Gap; modification of semiconductor materials; Cathode Anode Gap; heat treatment and modification of metal surfaces; Interelectrode Gap; Microwave Fields; Magnetic Field Induction; Induction System; Distributed Power Output; Cathode Plasma; Anode Current; Waveguide Output; Interaction Space; Centrifugal Instability; VC; Equivalent Circuit; Cylindrical Cathode; High Frequency Electric Field; Azimuthal Magnetic Field; End Screens; Magnetic Insulation; Capacitor C3
