Title :
Design and Simulation of a Mega-Watt Class Nonrelativistic Magnetron
Author :
Fleming, Timothy P. ; Lambrecht, Michael ; Mardahl, Peter
Author_Institution :
Air Force Res. Lab., Albuquerque, NM, USA
fDate :
6/1/2012 12:00:00 AM
Abstract :
Numerical simulations of a prototype conventional magnetron capable of an RF output power exceeding 1.0 MW are presented. Magnetron design evaluation is carried out via numerical simulation using the 3-D Improved Concurrent Electromagnetic Particle-in-Cell code. The magnetron was capable of oscillating in the π mode with little mode competition at 655 MHz over a range of magnetic fields extending from B = 0.186 to B = 0.261 T and voltages ranging from 40 to 64 kV. RF Output power ranged from 400 kW to 2.1 MW over these voltages with efficiencies typically at 60%. RF power propagation upstream was identified as a major source of loss in the design.
Keywords :
circuit oscillations; electromagnetic wave propagation; magnetic fields; magnetrons; numerical analysis; 3D improved concurrent electromagnetic particle-in-cell code; RF output power; RF power propagation; efficiency 60 percent; frequency 655 MHz; magnetic field; magnetron design evaluation; mega-watt class nonrelativistic magnetron; numerical simulation; oscillating mode; power 400 kW to 2.1 MW; prototype conventional magnetron; voltage 40 kV to 64 kV; Cathodes; Magnetic resonance; Magnetic resonance imaging; Magnetic separation; Power generation; Radio frequency; Saturation magnetization; Conventional magnetron; high-power microwave; mode competition;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2012.2187288
