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Experimental Demonstration of Dual-Mode Relativistic Backward Wave Oscillator With a Beam Filtering Ring Packaged With Permanent Magnet

Tianze Miao, Renzhen Xiao, Yanchao Shi, Kun Chen, Youyou Gui, Yuchuan Zhang, Kaiwen Luo, Changhua Chen, Jiaru Shi

2023IEEE Electron Device Letters25 citationsDOI

Abstract

It is reported on the design and experiment of a dual-mode (TM01-TM02) relativistic backward wave oscillator (RBWO) with a beam filtering ring (BFR) packaged with permanent magnet. The BFR makes use of the large transverse oscillation of electrons at low magnetic field. By absorbing part of the electron beam periodically, the amount of the electrons that would absorb power from the microwave in the slow-wave structure (SWS) is greatly reduced, so the beam-wave conversion efficiency is improved. Experimental results demonstrate that a 3.2 GW mixed-modes microwave at 9.87 GHz with an efficiency of 40% is obtained with a 675 kV, 11.8 kA beam guided by a 0.68 T magnetic field. The BFR has a considerable lifetime and can effectively improve the efficiency of the device with stable operation.

Topics & Concepts

MagnetMicrowaveBackward-wave oscillatorRelativistic electron beamOscillation (cell signaling)PhysicsElectronBeam (structure)Cathode rayOpticsEnergy conversion efficiencyMagnetic fieldTraveling-wave tubeOptoelectronicsAmplifierNuclear physicsChemistryQuantum mechanicsBiochemistryCMOSGyrotron and Vacuum Electronics ResearchParticle accelerators and beam dynamicsPulsed Power Technology Applications
Experimental Demonstration of Dual-Mode Relativistic Backward Wave Oscillator With a Beam Filtering Ring Packaged With Permanent Magnet | Litcius