A high-resolution, low-latency, bunch-by-bunch feedback system for nano-beam stabilization
(2022)
Analysis of proton bunch parameters in the AWAKE experiment
Journal of Instrumentation IOP Publishing 16 (2021) P11031
Abstract:
A precise characterization of the incoming proton bunch parameters is required to accurately simulate the self-modulation process in the Advanced Wakefield Experiment (AWAKE). This paper presents an analysis of the parameters of the incoming proton bunches used in the later stages of the AWAKE Run 1 data-taking period. The transverse structure of the bunch is observed at multiple positions along the beamline using scintillating or optical transition radiation screens. The parameters of a model that describes the bunch transverse dimensions and divergence are fitted to represent the observed data using Bayesian inference. The analysis is tested on simulated data and then applied to the experimental data.Beam position detection of a short electron bunch in presence of a longer and more intense proton bunch for the AWAKE Experiment
JACoW Publishing, Geneva, Switzerland (2021) 75-79
Abstract:
The AWAKE experiment studies the acceleration of electrons to multi-GeV levels driven by the plasma wakefield generated by an ultra-relativistic and high intensity proton bunch. The proton beam, being considerably more intense than the co-propagating electron bunch, perturbs the measurement of the electron beam position achieved via standard techniques. This contribution shows that the electrons position monitoring is possible by frequency discrimination, exploiting the large bunch length difference between the electron and proton beams. Simulations and a beam measurement hint, the measurement has to be carried out in a frequency regime of a few tens of GHz, which is far beyond the spectrum produced by the 1ns long (4 σ Gaussian) proton bunch. As operating a conventional Beam Position Monitor (BPM) in this frequency range is problematic, an innovative approach based on the emission of coherent Cherenkov Diffraction Radiation (ChDR) in dielectrics is being studied. After describing the monitor concept and design, we will report about the results achieved with a prototype system at the CERN electron facility CLEAR.Updating the SiD Detector concept
(2021)
High-resolution, low-latency, bunch-by-bunch feedback systems for nanobeam production and stabilization
JACoW Publishing, Geneva, Switzerland (2021) 458-465