Two-Wave Ka-Band Nanosecond Relativistic Cherenkov Oscillator

Two-Wave Ka-Band Nanosecond Relativistic Cherenkov Oscillator

This paper presents the results of numerical and experimental study of a Ka-band relativistic Cherenkov oscillator with average diameter of the slow-wave structure {D} \approx \text {2.6}\lambda . ( \lambda is a wavelength). The combined mode selection including the diffraction loss in the electro...

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Veröffentlicht in:IEEE transactions on electron devices 2018-07, Vol.65 (7), p.3019-3025
Hauptverfasser: Rostov, Vladislav V., Totmeninov, Eugene M., Tsygankov, Ruslan V., Kurkan, Ivan K., Kovalchuk, Oleg B., Elchaninov, Anton A., Stepchenko, Alexei S., Gunin, Alexander V., Konev, Vladimir Y., Yushchenko, Alexei Y., Emelyanov, Eugene V.
Format: Artikel
Sprache:eng
Schlagworte:
Diffraction
Electron beams
high-power microwave (HPM) generation
Microwave measurement
Microwave oscillators
Microwave theory and techniques
millimeter-wave devices
Modulation
Waveguide components
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Zusammenfassung:This paper presents the results of numerical and experimental study of a Ka-band relativistic Cherenkov oscillator with average diameter of the slow-wave structure {D} \approx \text {2.6}\lambda . ( \lambda is a wavelength). The combined mode selection including the diffraction loss in the electron diode was applied. The high-current accelerator SINUS-200 provided the thin-walled annular electron beam in the range of voltages 350-420 kV and currents of 2.9-3.8 kA at pulsewidth of 10 ns. The generation of 2.5-3-ns pulses at the central frequency 36.4-36.8-GHz and 400-600-MW output microwave peak power was realized. The corresponding efficiency of 42% ± 5% in power conversion has been obtained.
ISSN:0018-9383
1557-9646
DOI:10.1109/TED.2018.2833456