High power microwave source for a plasma wakefield experiment

High power microwave source for a plasma wakefield experiment

The results of the generation of a high-power microwave (∼550 MW, 0.5 ns, ∼9.6 GHz) beam and feasibility of wakefield-excitation with this beam in under-dense plasma are presented. The microwave beam is generated by a backward wave oscillator (BWO) operating in the superradiance regime. The BWO is d...

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Veröffentlicht in:Journal of applied physics 2017-01, Vol.121 (3)
Hauptverfasser: Shafir, G., Shlapakovski, A., Siman-Tov, M., Bliokh, Yu, Leopold, J. G., Gleizer, S., Gad, R., Rostov, V. V., Krasik, Ya. E.
Format: Artikel
Sprache:eng
Schlagworte:
Backward waves
Computer simulation
Dense plasmas
Electron beams
Electron density
High power microwaves
Microwaves
Plasma
Wave propagation
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Zusammenfassung:The results of the generation of a high-power microwave (∼550 MW, 0.5 ns, ∼9.6 GHz) beam and feasibility of wakefield-excitation with this beam in under-dense plasma are presented. The microwave beam is generated by a backward wave oscillator (BWO) operating in the superradiance regime. The BWO is driven by a high-current electron beam (∼250 keV, ∼1.5 kA, ∼5 ns) propagating through a slow-wave structure in a guiding magnetic field of 2.5 T. The microwave beam is focused at the desired location by a dielectric lens. Experimentally obtained parameters of the microwave beam at its waist are used for numerical simulations, the results of which demonstrate the formation of a bubble in the plasma that has almost 100% electron density modulation and longitudinal and transverse electric fields of several kV/cm.
ISSN:0021-8979
1089-7550
DOI:10.1063/1.4973734