Title :
A particle-in-cell simulation of a cyclic beam buncher
Author :
Peratt, Anthony L. ; Snell, Charles M. ; Felber, Franklin S.
Author_Institution :
Los Alamos Nat. Lab., NM, USA
fDate :
6/1/1990 12:00:00 AM
Abstract :
Cyclic beam bunching has been demonstrated in a numerical simulation of a 35-MeV (γ=69), 4.2-GW relativistic electron beam injected into a cylindrical cavity in which a TE RF mode is circulating. For a 4-MV/m peak field amplitude in the TE511 mode and an RF frequency of 1.7 GHz, a modulation index of 6.3 was achieved, with beam bunches appearing every 0.6 ns at the plane of maximum interaction angle, θ=(5/6)2π rad. The simulation results were found to be in close agreement with the linear single-particle theoretical results of F.S. Felber et al. (1983). Also in agreement with Felber et al., the simulations showed that low-emittance bean bunching is possible as long as the RF-field energy dominates the self-field energy of the bunched beam
Keywords :
digital simulation; relativistic electron beam tubes; 0.6 mus; 1.7 GHz; 35 MeV; 4.2 GW; RF; TE511 mode; cyclic beam buncher; cylindrical cavity; digital simulation; linear single-particle; low-emittance bean bunching; numerical simulation; particle-in-cell simulation; relativistic electron beam; self-field energy; Cyclotrons; Electromagnetic fields; Electromagnetic scattering; Electron beams; Frequency; Magnetic confinement; Magnetostatic waves; Particle beams; Pulse generation; Tellurium;
Journal_Title :
Plasma Science, IEEE Transactions on
