Title :
Suppression of Current Shot Noise and of Spontaneous Radiation Emission in Electron Beams by Collective Coulomb Interaction
Author :
Dyunin, E. ; Nause, A. ; Gover, A.
Author_Institution :
Dept. of Phys. Electron., Tel Aviv Univ., Tel Aviv, Israel
Abstract :
The effect of current-shot-noise suppression in an electron beam (e-beam) and the corresponding process of charged-particle self-ordering are analyzed using an analytic 1-D model and verified by 3-D numerical simulations. The suppression of current shot noise can be utilized to enhance the coherence of seeded free-electron lasers (FELs) and any other radiation devices using an e-beam. It is shown that this can be attained at optical frequencies with state-of-the-art high-quality e-beams. Our analysis of spontaneous emission suppression results in fundamental theoretical limit expressions for the coherence of FELs and other coherent radiation devices, which is analogous to the Schawlow-Townes limit. After exceeding the shot-noise limit, the coherence of FEL radiation is limited in the IR by velocity noise due to the e-beam energy spread. At UV and shorter wavelengths, it is fundamentally limited by quantum noise.
Keywords :
free electron lasers; numerical analysis; plasma light propagation; plasma simulation; plasma transport processes; shot noise; spontaneous emission; 1D model; 3D numerical simulation; IR radiation effect; Schawlow-Townes limit; UV radiation effect; charged-particle self-ordering; collective coulomb interaction; current shot noise suppression; electron beams; optical frequency; seeded free-electron lasers; spontaneous emission; spontaneous radiation emission; state-of-the-art high-quality e-beams; Free electron lasers; Kinetic theory; Laser beams; Laser noise; Particle beams; Undulators; Bunched particle beams; electron beams (e-beams); free-electron lasers (FELs); particle beam dynamics; shot noise;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2011.2162853
