Search results for "Microwave switches"

showing 2 items of 2 documents

Multipactor radiation analysis within a waveguide region based on a frequency-domain representation of the dynamics of charged particles

2009

[EN] A technique for the accurate computation of the electromagnetic fields radiated by a charged particle moving within a parallel-plate waveguide is presented. Based on a transformation of the time-varying current density of the particle into a time-harmonic current density, this technique allows the evaluation of the radiated electromagnetic fields both in the frequency and time domains, as well as in the near- and far-field regions. For this purpose, several accelerated versions of the parallel-plate Green's function in the frequency domain have been considered. The theory has been successfully applied to the multipactor discharge occurring within a two metal-plates region. The proposed…

electromagnetic fieldsMultipactor effectElectromagnetic fieldcurrent densityImage theoryGreens-FunctionElectrodynamicsAcceleratorelectrodynamicsFinite difference time-domain analysisElectromagnetic radiationmicrowave switchesGreen's function methodslaw.inventionPeriodic StructuresOpticsBreakdownCurrent densitylawTEORIA DE LA SEÑAL Y COMUNICACIONESGreen's functionsFrequency-domain analysisfinite difference time-domain analysisEwald MethodPhysicsTeoría de la Señal y las Comunicaciones2-Dbusiness.industryElectromagnetic fieldsMicrowave switcheswaveguidesParallel plate waveguideCharged particleComputational physicsfrequency-domain analysisTransformation (function)Frequency domainModesDischarge3325 Tecnología de las TelecomunicacionesMultipactor effectbusinessWake-FieldWaveguidesWaveguideCurrent densitySimulationPhysical Review E
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Analysis of multipactor RF breakdown in a waveguide containing a transversely magnetized ferrite

2016

In this paper, the multipactor RF breakdown in a parallel-plate waveguide partially filled with a ferrite slab magnetized normal to the metallic plates is studied. An external magnetic field is applied along the vertical direction between the plates in order to magnetize the ferrite. Numerical simulations using an in-house 3-D code are carried out to obtain the multipactor RF voltage threshold in this kind of structures. The presented results show that the multipactor RF voltage threshold at certain frequencies becomes considerably lower than for the corresponding classical metallic parallel-plate waveguide with the same vacuum gap

Materials scienceSaturation magnetizationElectromagnetic waveguidesPhysics::Instrumentation and DetectorsIn-house 3D codeTransversely magnetized ferrite01 natural sciencesVacuum gap010305 fluids & plasmasExternal magnetic fieldOptics0103 physical sciencesVertical directionRadio frequencyTEORIA DE LA SEÑAL Y COMUNICACIONESParallel-plate waveguideElectronic engineeringNumerical simulationsElectrical and Electronic EngineeringMagnetic anisotropyElectric breakdownMultipactor RF breakdown analysis010302 applied physicsbusiness.industryParallel plate waveguidesFerrite slabRF breakdownMicrowave switchesVacuum gapElectronic Optical and Magnetic MaterialsMagnetic fieldMultipactor RF voltage thresholdMagnetic fieldMetallic platesMagnetic fieldsSlabFerrite (magnet)Ferrite waveguidesFerrite devicesMultipactor effectbusinessVoltageNumerical analysis
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