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Efficiency improvement by a beam filtering ring in a relativistic backward wave oscillator at low magnetic field

Tianze Miao, Renzhen Xiao, Yanchao Shi, Kun Chen, Yuchuan Zhang, Jun Sun, Dongyang Wang, Jiaru Shi

2022Physics of Plasmas12 citationsDOI

Abstract

This paper presents a design method of the relativistic backward wave oscillator at low magnetic field, which can improve the efficiency by 29% in the particle in cell simulation. The core of this method is to introduce a beam filtering ring. The beam filtering ring takes the characteristic of the radial position change as the electron oscillates. The structure manipulates the axial current, so that a large proportion of the electrons expected to be in the accelerated phase in the slow-wave structure is absorbed by the structure. It greatly enhances the bunching of the beam in the RF field and improves the beam-wave conversion efficiency significantly. The particle in cell simulation results reveal that at a permanent magnet with a magnetic induction intensity of 0.68 T, the output microwave power of the relativistic backward wave oscillator with a beam filtering ring is 5.9 GW, and the conversion efficiency can be up to 54% when the diode voltage is 890 kV and the beam current is 12.2 kA.

Topics & Concepts

PhysicsRelativistic electron beamBeam (structure)Backward-wave oscillatorMagnetic fieldMicrowaveRelativistic particleDiodeEnergy conversion efficiencyElectronOpticsCathode rayAtomic physicsComputational physicsOptoelectronicsQuantum mechanicsGyrotron and Vacuum Electronics ResearchParticle accelerators and beam dynamicsPulsed Power Technology Applications
Efficiency improvement by a beam filtering ring in a relativistic backward wave oscillator at low magnetic field | Litcius