Title :
Ultra-low B-field magnetron operation at the drift-cyclotron resonance
Author :
Riyopoulos, Spilios
Author_Institution :
Sci. Applications Int. Corp., McLean, VA, USA
fDate :
10/1/1999 12:00:00 AM
Abstract :
In magnetrons operating near the Buneman-Hartree resonance ku-ω=0, u being the E×B drift velocity, the energy stored in the cyclotron motion is not converted into microwaves, and the efficiency decreases at low magnetic fields. By operating at the drift cyclotron resonance ku-ω=Ω, both the electrostatic and the cycloidal motion energy are converted to radiation and the efficiency increases at low magnetic fields. At optimum efficiency all normalized operation parameters are expressed solely in terms of the cyclotron-to-RF frequency ratio. For a specified anode circuit it is shown that the DC electric and magnetic field can be reduced by a factor 6-10 relative to the conventional operation, with electronic efficiency in the 50%-70% range. Moderate power S-band crossed field amplifier operation at 400 Gauss magnetic field is demonstrated by numerical simulations. UHF operation is conjectured at 40-50 Gauss produced by solenoids without iron cores
Keywords :
cyclotron resonance; magnetrons; plasma simulation; Buneman-Hartree resonance; DC electric field; DC magnetic field; E×B drift velocity; S-band crossed field amplifier operation; UHF operation; anode circuit; cycloidal motion energy; cyclotron motion; drift cyclotron resonance; drift-cyclotron resonance; electrostatic energy; energy storage; iron cores; normalized operation parameters; numerical simulations; solenoids; ultra-low B-field magnetron operation; Anodes; Cyclotrons; Electron mobility; Electrostatics; Frequency; Gaussian processes; Magnetic circuits; Magnetic fields; Magnetic resonance; Operational amplifiers;
Journal_Title :
Plasma Science, IEEE Transactions on
