Physical Review Accelerators and Beams (Mar 2024)

Beam-based commissioning of a novel X-band transverse deflection structure with variable polarization

  • P. González Caminal,
  • F. Christie,
  • R. D’Arcy,
  • S. M. Jaster-Merz,
  • R. Assmann,
  • F. Burkart,
  • B. Conrad,
  • H. Dinter,
  • M. Foese,
  • J. Herrmann,
  • M. Hoffmann,
  • M. Hüning,
  • R. Jonas,
  • O. Krebs,
  • S. Lederer,
  • B. Marchetti,
  • D. Marx,
  • J. Mueller,
  • J. Osterhoff,
  • I. Peperkorn,
  • M. Reukauff,
  • H. Schlarb,
  • S. Schreiber,
  • G. Tews,
  • T. Vinatier,
  • M. Vogt,
  • A. de Z. Wagner,
  • S. Wesch,
  • P. Craievich,
  • M. Bopp,
  • H.-H. Braun,
  • A. Citterio,
  • R. Fortunati,
  • R. Ganter,
  • T. Kleeb,
  • F. Marcellini,
  • M. Pedrozzi,
  • E. Prat,
  • S. Reiche,
  • K. Rolli,
  • R. Sieber,
  • A. Grudiev,
  • W. L. Millar,
  • N. Catalan-Lasheras,
  • G. McMonagle,
  • S. Pitman,
  • V. del Pozo Romano,
  • K. T. Szypula,
  • W. Wuensch

DOI
https://doi.org/10.1103/PhysRevAccelBeams.27.032801
Journal volume & issue
Vol. 27, no. 3
p. 032801

Abstract

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Longitudinal electron-beam diagnostics play a critical role in the operation and control of x-ray free-electron lasers, which rely on parameters such as the current profile, the longitudinal phase space, or the slice emittance of the particle distribution. On the one hand, the femtosecond-scale electron bunches produced at these facilities impose stringent requirements on the resolution achievable with the diagnostics. On the other, research and development of novel accelerator technologies such as beam-driven plasma-wakefield accelerators (PWFA) demand unprecedented capabilities to resolve the centroid offsets in the full transverse plane along the longitudinal bunch coordinate. We present the beam-based commissioning of an advanced X-band transverse-deflection rf structure (TDS) system with the new feature of providing variable polarization of the deflecting force: the PolariX-TDS. By means of a comprehensive campaign of measurements conducted with the prototype, key parameters of the rf performance of the system are validated and a phase-space characterization of an electron bunch is accomplished with a time resolution of 3.3 fs. Furthermore, an analysis of second-order effects induced on the bunch from its passage through the PolariX-TDS is presented.