Title :
Radiation Enhancement of a Relativistic Backward-Wave Oscillator Driven by Two Annular Electron Beams
Author :
Wenxin Liu ; Ziqiang Yang ; Yong Wang ; Pukun Liu ; Chao Zhao
Author_Institution :
High Power Source & Technol., Inst. of Electron., Beijing, China
Abstract :
The radiation enhancement of a relativistic backward-wave oscillator (RBWO) driven by two annular electron beams is demonstrated in this paper. The slow-wave structure of RBWO is composed of a cylindrical grating with rectangular corrugation. The concentric electron beams are maintained with a velocity difference to initiate two-stream instability (TSI). The dispersion equations of the RBWO are derived and solved numerically for the growth rate of microwave signal. Compared with the single beam device, an enhancement in the growth rate is observed for the two beam case and that is attributed by the TSI. This theoretical observation is verified by 2-D particle in cell simulation and experiment. The experimental results show that the output power of 150 MW for a signal-beam device is enhanced to 200 MW for the two beam case and duration of microwave pulse is also enlarged from 10.6 to 16.8 ns. The efficiency of the devices is ~ 6%.
Keywords :
backward wave oscillators; relativistic electron beams; slow wave structures; 2D particle-in-cell simulation; RBWO; TSI; annular electron beams; concentric electron beams; cylindrical grating; device efficiency; dispersion equation; microwave pulse; microwave signal growth rate; power 150 MW; radiation enhancement; rectangular corrugation; relativistic backward-wave oscillator; signal-beam device; single-beam device; slow-wave structure; two-stream instability; velocity difference; Cathodes; Dispersion; Electron beams; Equations; Gratings; Mathematical model; Power generation; Radiation enhancement; relativistic backward-wave oscillator (RBWO); two electron beams; two-stream instability (TSI);
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2013.2290327
