Propagation in a longitudinally magnetized plasma-filled coaxial waveguide

Rotating coordinates are used to derive the dispersion equation for electromagnetic waves propagating in a longitudinally magnetized plasma-filled coaxial waveguide. The plasma is taken to be collisional so far as electron motion is concerned. The reflection coefficient for an air-plasma interface i...

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Bibliografische gegevens
Hoofdauteurs: Franklin, R, Oldfield, M
Formaat: Journal article
Taal:English
Gepubliceerd in: Taylor and Francis 1969
Onderwerpen:
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author Franklin, R
Oldfield, M
author_facet Franklin, R
Oldfield, M
author_sort Franklin, R
collection OXFORD
description Rotating coordinates are used to derive the dispersion equation for electromagnetic waves propagating in a longitudinally magnetized plasma-filled coaxial waveguide. The plasma is taken to be collisional so far as electron motion is concerned. The reflection coefficient for an air-plasma interface in such a waveguide system is determined assuming that coupling is predominantly to the fundamental plasma mode. The results of computations for standard precision coaxial waveguide at 9 GHZ are given for both propagation constant and reflection coefficient as a function of normalized collision frequency, normalized plasma frequency and normalized cyclotron frequency.
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institution University of Oxford
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publishDate 1969
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spelling oxford-uuid:6fdb9d3c-1ce8-4da4-891e-05fb53705f1e2022-03-26T19:33:23ZPropagation in a longitudinally magnetized plasma-filled coaxial waveguideJournal articlehttp://purl.org/coar/resource_type/c_dcae04bcuuid:6fdb9d3c-1ce8-4da4-891e-05fb53705f1eEngineering & allied sciencesEnglishOxford University Research Archive - ValetTaylor and Francis1969Franklin, ROldfield, MRotating coordinates are used to derive the dispersion equation for electromagnetic waves propagating in a longitudinally magnetized plasma-filled coaxial waveguide. The plasma is taken to be collisional so far as electron motion is concerned. The reflection coefficient for an air-plasma interface in such a waveguide system is determined assuming that coupling is predominantly to the fundamental plasma mode. The results of computations for standard precision coaxial waveguide at 9 GHZ are given for both propagation constant and reflection coefficient as a function of normalized collision frequency, normalized plasma frequency and normalized cyclotron frequency.
spellingShingle Engineering & allied sciences
Franklin, R
Oldfield, M
Propagation in a longitudinally magnetized plasma-filled coaxial waveguide
title Propagation in a longitudinally magnetized plasma-filled coaxial waveguide
title_full Propagation in a longitudinally magnetized plasma-filled coaxial waveguide
title_fullStr Propagation in a longitudinally magnetized plasma-filled coaxial waveguide
title_full_unstemmed Propagation in a longitudinally magnetized plasma-filled coaxial waveguide
title_short Propagation in a longitudinally magnetized plasma-filled coaxial waveguide
title_sort propagation in a longitudinally magnetized plasma filled coaxial waveguide
topic Engineering & allied sciences
work_keys_str_mv AT franklinr propagationinalongitudinallymagnetizedplasmafilledcoaxialwaveguide
AT oldfieldm propagationinalongitudinallymagnetizedplasmafilledcoaxialwaveguide