@article{5983,
  author = {H. H. Weits and C. A. J. van der Geer and D. Oepts and A. F. G. van der Meer},
  title = {Electron pulse shaping in the FELIX RF accelerator},
  abstract = {The FELIX free-electron laser uses short pulses of relativistic electrons produced by an RF accelerator. The design target for the duration of these electron bunches was around 3 ps. In experiments we observed that the bunches emit coherently enhanced spontaneous emission (CSE) when they travel through an undulator. It was demonstrated that the power level of the CSE critically depends on the settings of the accelerator. In this article we seek to explain these observations by studying the length and shape of the electron bunches as a function of the settings of the accelerator. A particle-tracking model was used to simulate the acceleration and transport processes. These include bunch compression in a 14-cell travelling wave buncher cavity, acceleration in a travelling wave linear accelerator, and passage through a (dispersive) chicane structure. The effect of the phase setting of the RF accelerating field with respect to the arrival time of the electron bunch in each accelerator structure was studied. The parameter range of the simulations is related to that of an actual free-electron laser experiment using these bunches. We find that, for specific settings of the accelerating system, electron pulses with a length of 350 mu m FWHM (1 ps) are produced. The charge in the bunch rises steeply within a distance of 25 mu m This bunch shape explains the high level of coherently enhanced spontaneous emission observed in the FELIX laser. (C) 1999 Elsevier Science B.V. All rights reserved.},
  year = {1999},
  journal = {Nuclear Instruments & Methods in Physics Research Section a-Accelerators Spectrometers Detectors and Associated Equipment},
  volume = {434},
  number = {2-3},
  pages = {205-217},
  month = {Sep 21},
  isbn = {0168-9002},
  doi = {10.1016/s0168-9002(99)00536-7},
  language = {eng},
}