Commissioning Results and Electron Beam Characterization with the S-Band Photoinjector at SINBAD-ARES

Research output: Contribution to journalArticlepeer-review

Authors

  • Eva Panofski
  • Ralph Assmann
  • Ulrich Burkart
  • Ulrich Dorda
  • Luca Genovese
  • Farzad Jafarinia
  • Sonja Jaster-Merz
  • Max Kellermeier
  • Willi Kuropka
  • Francois Lemery
  • Barbara Marchetti
  • Daniel Marx
  • Frank Mayet
  • Thomas Vinatier
  • Sumera Yamin
  • DESY - Deutsches Elektronen-Synchrotron
  • BNL - Brookhaven National Laboratory

Documents & links

Abstract

Over the years, the generation and acceleration of ultra-short, high quality electron beams has attracted more and more interest in accelerator science. Electron bunches with these properties are necessary to operate and test novel diagnostics and advanced high-gradient accelerating schemes, such as plasma accelerators and dielectric laser accelerators. Furthermore, several medical and industrial applications require high-brightness electron beams. The dedicated R&D facility ARES at DESY (Deutsches Elektronen-Synchrotron) will provide such probe beams in the upcoming years. After the setup of the normal-conducting, radio-frequency (RF) photoinjector and linear accelerating structures, ARES successfully started the beam commissioning of the RF gun. This paper gives an overview of the ARES photoinjector setup and summarizes the results of the gun commissioning process. The quality of the first electron beams is characterized in terms of charge, momentum, momentum spread and beam size. Additionally, the dependencies of the beam parameters on RF settings are described. All measurement results of the characterized beams fulfill the requirements for operating the ARES linac with this RF photoinjector.

Details

Original languageEnglish
Pages (from-to)1-17
Number of pages17
JournalInstruments
Volume5
Issue number3
DOIs
Publication statusPublished - 25 Aug 2021

Keywords

  • ARES, S-band photoinjector, Beam commissioning, SINBAD, DESY

ID: 7495735