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A new class of spatial harmonic magnetrons with potentials for CW and sub-THz operation
Publikationstyp
Journal Article
Publikationsdatum
2023-02-22
Sprache
English
Volume
15
Issue
8
Start Page
1308
End Page
1318
Citation
International Journal of Microwave and Wireless Technologies 15 (8): 1308-1318 (2023-02-22)
Publisher DOI
Scopus ID
Publisher
Cambridge University Press
A strictly physically based design theory of a new class of Spatial Harmonic Magnetrons (SHM) is thoroughly derived which leads to analytically evaluable expressions. Thus two advantages are obtained: (1) The design parameters appear grouped into two separate categories - one just containing geometrical and material parameters, the other one exclusively containing beam current-related ones, which are in product-form determining performance. The influence of each parameter can thus easily be discovered and investigated. (2) Numerical efforts for any new design will be reduced by at least one order of magnitude. Subsequently and based on feature (1) it is derived that loading the anode structure by a suitably selected meta-material will increase output power and efficiency, will pave the way to CW operation, and can extend oscillation frequency well into the sub-THz range. Finally, it is shown that the Rising Sun Magnetron is a first step toward a meta-material loaded SHM offering the same but quantitatively reduced features and less stringent requirements to fabrication technology.
Schlagworte
Magnetron
meta-material
microwave tubes
sub-THz CW signal generators
DDC Class
620: Engineering
530: Physics