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Particle-in-cell simulation of a spatial-harmonic magnetron with a cold secondary emission cathode
Publikationstyp
Journal Article
Publikationsdatum
2012-12
Sprache
English
Institut
TORE-URI
Enthalten in
Volume
40
Issue
12
Start Page
3512
End Page
3519
Article Number
6354017
Citation
IEEE Transactions on Plasma Science 12 (40): 6354017 (2012-12)
Publisher DOI
Scopus ID
A 16-vane millimeter-wave spatial-harmonic magnetron (SHM) with a cold secondary emission cathode is examined by the use of a 3-D particle-in-cell (PIC) code embedded in CST Particle Studio. Simulations of the SHM are performed without artificial RF priming and without assuming restrictive assumptions on the mode of operation or on the number of harmonics to be considered. Thus, in our simulations, the electromagnetic oscillations grow naturally from noise. Time-evolved space-charge simulations and gradual formation of a single-frequency RF oscillation are presented. Examination of space-charge profiles at saturation time reveals the presence of two different space-charge distributions that depend on the amount of primary emission current. This current is employed to model a bombarding current, which is used to initialize the cold cathode. It is shown that a small primary emission density results in nonperiodic distribution of space charge at saturation time, which is in accordance with the previously reported space-charge distribution in SHMs. The simulated current, power, and efficiency indicate good correlation with the experimental results.
Schlagworte
Nonlinear beam-wave interaction
particle-in-cell (PIC) simulation
secondary emission
spatial-harmonic magnetron (SHM)