Resonant interaction between symmetric surface wave and bulk wave in oversized sectionalized slow-wave structures | Izvestiya vuzov. Fizika. 2020. № 2. DOI: 10.17223/00213411/63/2/36

HomeIssuesResonant interaction between symmetric surface wave and bulk wave in oversized sectionalized slow-wave structures | Izvestiya vuzov. Fizika. 2020. № 2. DOI: 10.17223/00213411/63/2/36

Resonant interaction between symmetric surface wave and bulk wave in oversized sectionalized slow-wave structures

The resonant properties of coupled electromagnetic waves are theoretically investigated in sectionalized oversized slow-wave structures of a multiwave Cherenkov generator with radial polarization of radiation at 9 GHz and 35 GHz. The influence patterns of the drift tube and the corrugated geometry parameters of the slow-wave structure on the longitudinal resonance frequencies of the coupled symmetric TM-waves are evaluated. The quality factors of the oversized slow-wave structures and the distribution of the electromagnetic field are determined. We investigated the configurations of electromagnetic fields in oversized slow-wave structures which can potentially provide effective coupling with the electron beam and ensure stable generation of radiation in a multiwave Cherenkov generator.

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Keywords

сверхразмерная замедляющая структура, продольный резонанс, матрица рассеяния, oversized slow-wave structure, longitudinal resonance, scattering matrix

Authors

NameOrganizationE-mail
Chazov V.A.Institute of High Current Electronics SB RASvadim.chazov.2017@mail.ru
Deichuly M.P.Institute of High Current Electronics SB RASdmp@lhfe.hcei.tsc.ru
Koshelev V.I.Institute of High Current Electronics SB RASkoshelev@lhfe.hcei.tsc.ru
Всего: 3

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Resonant interaction between symmetric surface wave and bulk wave in oversized sectionalized slow-wave structures | Izvestiya vuzov. Fizika. 2020. № 2. DOI: 10.17223/00213411/63/2/36

Resonant interaction between symmetric surface wave and bulk wave in oversized sectionalized slow-wave structures | Izvestiya vuzov. Fizika. 2020. № 2. DOI: 10.17223/00213411/63/2/36