Title :
Compact Relativistic Magnetron With Gaussian Radiation Pattern
Author :
Leach, Christopher ; Prasad, Sarita ; Fuks, Mikhail I. ; Schamiloglu, Edl
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of New Mexico, Albuquerque, NM, USA
Abstract :
A compact A6 relativistic magnetron is proposed which operates in the π-mode and whose radiation is extracted axially as a TE11 mode through a cylindrical waveguide with the same cross section as that of the anode block. This radiated mode is similar to a Gaussian microwave beam. The advantages of this magnetron include the minimal volume of the applied magnetic field and, as a consequence, the proximity of the electron dump to the anode block for the electrons leaking from the interaction space that minimizes both the diameter and the axial length of the magnetron. By using MAGIC particle-in-cell (PIC) simulations, we demonstrate the possibility of generating a Gaussian radiation pattern with power of about 0.5 GW when the applied voltage is 350 kV. This compact magnetron is easier to implement than the magnetron with diffraction output (MDO), although with reduced efficiency.
Keywords :
Gaussian processes; circular waveguides; magnetrons; Gaussian microwave beam; Gaussian radiation pattern; MAGIC PIC simulations; MAGIC particle-in-cell simulations; MDO; anode block; compact A6 relativistic magnetron; cylindrical waveguide; electron dump; interaction space; magnetic field; magnetron with diffraction output; power 0.5 GW; voltage 350 kV; Anodes; Antenna radiation patterns; Cathodes; Cavity resonators; Educational institutions; Magnetomechanical effects; Saturation magnetization; $pi$-mode; Gaussian microwave beam; leakage current; magnetron; mode converter;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2012.2212910
