Photonics (Apr 2024)

Design and Test of a Klystron Intra-Pulse Phase Feedback System for Electron Linear Accelerators

  • Luca Piersanti,
  • Marco Bellaveglia,
  • Fabio Cardelli,
  • Alessandro Gallo,
  • Riccardo Magnanimi,
  • Sergio Quaglia,
  • Michele Scampati,
  • Giorgio Scarselletta,
  • Beatrice Serenellini,
  • Simone Tocci

DOI
https://doi.org/10.3390/photonics11050413
Journal volume & issue
Vol. 11, no. 5
p. 413

Abstract

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Beam stability and timing jitter in modern linear accelerators are becoming increasingly important. In particular, if a magnetic or radio-frequency (RF) compression regime is employed, the beam time of arrival jitter at the end of the linac can be strictly correlated with the phase noise of the accelerating fields of the RF structure working off-crest. For this reason, since 2008, an RF fast-feedback technique, which acts within each RF pulse, has been successfully employed at LNF-INFN (Laboratori Nazionali di Frascati dell’Istituto Nazionale di Fisica Nucleare) in the SPARC_LAB (Sources for Plasma Accelerators and Radiation Compton with Laser And Beam) facility on S-band (2856 MHz) klystrons powered by pulse-forming network (PFN) modulators, as reported in this paper. However, in order to meet the more stringent requirements of plasma wakefield acceleration schemes, some upgrades to this feedback system have been recently carried out. The first prototype has been experimentally tested on a C-band (5712 MHz) klystron, driven by a solid-state modulator, in order to investigate the possibility for additional improvement resulting from the inherently more stable power source. In this paper, the design, realization and the preliminary measurement results obtained at SPARC_LAB after such upgrades will be reviewed.

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