JACoW logo

Journals of Accelerator Conferences Website (JACoW)

JACoW is a publisher in Geneva, Switzerland that publishes the proceedings of accelerator conferences held around the world by an international collaboration of editors.


BiBTeX citation export for MOPB021: Energy Stabilization of High-charge Laser Plasma Accelerator Electron Beams via Hybrid Plasma Dechirper

@unpublished{shi:sap2023-mopb021,
% --- JACoW template Dec 2024 ---
  author       = {X.Y. Shi and D.Z. Li and J. Wang and H.S. Xu and M. Zeng},
  title        = {{Energy Stabilization of High-charge Laser Plasma Accelerator Electron Beams via Hybrid Plasma Dechirper}},
  eventtitle   = {14th Symp. Accel. Phys. (SAP'23)},
  eventdate    = {2023-07-10/2023-07-12},
  language     = {english},
  intype       = {presented at},
  series       = {Symposium on Accelerator Physics},
  number       = {14},
  venue        = {Xichang, China},
  note         = {presented at the 14th Symp. Accel. Phys. (SAP'23) in Xichang, China, unpublished},
  abstract     = {{As the beam quality of laser plasma accelerators (LPAs) improves, potential application of an LPA as the injector of a booster of a synchrotron light source becomes more and more realistic. Even though, it is still very challenging because the energy jitter and energy spread of the-state-of-the-art LPAs are not small enough. There have been proposals, which are successful to suppress the energy jitter and energy spread simultaneously by implementing magnetic chicane together with active dechirper, for relatively low charge conditions (e.g., tens of pC). However, this method is not very effectivewhen the bunch charge becomes an order of magnitude higher due to the heavy beam loading. In this paper, we present a novel method which can suppress the energy jitter and reduce the energy spread simultaneously even with heavy beam loading. Preliminary particle-in-cell (PIC) simulations showed that such a design can reduce the energy jitter and energy spread of the 500 pC bunches from ±2\% and 2.39\% to less than 0.33\% and 0.8\%, respectively, with high transmission efficiency (>89\%).}},
}