Title :
Smooth-bore magnetron simulations using a moving wavelength computer code
Author :
McDowell, Hunter L.
Author_Institution :
Commun. & Power Industries, Beverly, MA, USA
fDate :
6/1/2002 12:00:00 AM
Abstract :
A moving wavelength computer code developed for crossed-field amplifier simulations has been used to simulate the operation of a smooth-bore magnetron. Simulations using thermionic emission and a mixture of thermionic and secondary emission have been conducted. The simulations were run for about 24 000 cyclotron periods and were stationary for at least the last 18 000 of these periods. The results show the space charge does not settle to an approximation of a Brillouin state, but instead a charge distribution of lower density extends well beyond the edge of a theoretical Brillouin sheath. A small current reaches the anode. Trajectories extracted from the simulation show a mixture of shapes-some with substantial cycloiding, others with little cycloiding.
Keywords :
magnetrons; microwave amplifiers; microwave tubes; secondary electron emission; thermionic electron emission; Brillouin state; charge distribution; computer modeling; crossed-fields; cycloiding; moving wavelength computer code; secondary emission; smooth bore magnetron; smooth-bore magnetron; smooth-bore magnetron simulations; theoretical Brillouin sheath; thermionic emission; Anodes; Boring; Cathodes; Computational modeling; Computer simulation; Geometry; Radio frequency; Solid modeling; Space charge; Thermionic emission;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2002.801620
