Physical Review Research (Nov 2024)

High-brightness megahertz-rate beam from a direct-current and superconducting radio-frequency combined photocathode gun

  • H. Jia,
  • T. Li,
  • T. Wang,
  • Y. Zhao,
  • X. Zhang,
  • H. Xu,
  • Z. Liu,
  • J. Liu,
  • L. Lin,
  • H. Xie,
  • L. Feng,
  • F. Wang,
  • F. Zhu,
  • J. Hao,
  • S. Quan,
  • K. Liu,
  • S. Huang

DOI
https://doi.org/10.1103/PhysRevResearch.6.043165
Journal volume & issue
Vol. 6, no. 4
p. 043165

Abstract

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High-brightness megahertz-rate electron beams are highly desired for cutting-edge applications in many areas of science. Photocathode electron guns capable of generating such beams with low dark current remain to be a challenging field. In this paper, we report breakthroughs with a hybrid gun combining a direct-current gap and a superconducting radio-frequency (SRF) cavity. The gun, employing K_{2}CsSb photocathodes driven by a green laser, delivers a few MeV electron beam at 1 and 81.25 MHz rates with an average current up to 3 mA and a dark current several orders lower than current normal conducting continuous-wave guns. Emittance compensation and multipole field corrections have been applied to achieve a high-quality beam. The achievement will inspire the development of high-brightness SRF guns and promote megahertz-rate beam applications including coherent linac light sources and ultrafast electron diffraction/microscopy.