A method to determine the maximum radius of defocused protons after self-modulation in AWAKE

@article{Marlene2018AMT,
  title={A method to determine the maximum radius of defocused protons after self-modulation in AWAKE},
  author={Turner Marlene and E. Gschwendtner and Patric Muggli},
  journal={Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment},
  year={2018}
}
  • Turner Marlene, E. Gschwendtner, P. Muggli
  • Published 1 December 2017
  • Physics
  • Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment

Figures from this paper

Experimental Observation of Plasma Wakefield Growth Driven by the Seeded Self-Modulation of a Proton Bunch.
TLDR
The results confirm the development of the seeded self-modulation process, a necessary condition for external injection of low energy and acceleration of electrons to multi-GeV energy levels.
Experimental study of wakefields driven by a self-modulating proton bunch in plasma
We study experimentally the longitudinal and transverse wakefields driven by a highly relativistic proton bunch during self-modulation in plasma. We show that the wakefields' growth and amplitude

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AWAKE is a proton-driven plasma wakefield acceleration experiment. We show that the experimental setup briefly described here is ready for systematic study of the seeded self-modulation of the 400
IOP : Upgrade of the two-screen measurement setup in the AWAKE experiment
The AWAKE project at CERN uses a self-modulated \SI{400}{GeV/c} proton bunch to drive GV/m wakefields in a \SI{10}{m} long plasma with an electron density of $n_{pe} = 7 \times
AWAKE collaboration, AWAKE Readiness for the Study of the Seeded Self-Modulation of a 400 GeV Proton Bunch, PPCF (2018)
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