Physical Review Accelerators and Beams (Oct 2021)

Stable witness-beam formation in a beam-driven plasma cathode

  • A. Knetsch,
  • B. Sheeran,
  • L. Boulton,
  • P. Niknejadi,
  • K. Põder,
  • L. Schaper,
  • M. Zeng,
  • S. Bohlen,
  • G. Boyle,
  • T. Brümmer,
  • J. Chappell,
  • R. D’Arcy,
  • S. Diederichs,
  • B. Foster,
  • M. J. Garland,
  • P. Gonzalez Caminal,
  • B. Hidding,
  • V. Libov,
  • C. A. Lindstrøm,
  • A. Martinez de la Ossa,
  • M. Meisel,
  • T. Parikh,
  • B. Schmidt,
  • S. Schröder,
  • G. Tauscher,
  • S. Wesch,
  • P. Winkler,
  • J. C. Wood,
  • J. Osterhoff

DOI
https://doi.org/10.1103/PhysRevAccelBeams.24.101302
Journal volume & issue
Vol. 24, no. 10
p. 101302

Abstract

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Electron beams to be accelerated in beam-driven plasma wakes are commonly formed by a photocathode and externally injected into the wakefield of a preceding bunch. Alternatively, using the plasma itself as a cathode offers the possibility of generating ultrashort, low-emittance beams by trapping and accelerating electrons from the ambient plasma background. Here, we present a beam-driven plasma cathode realized via laser-triggered density-downramp injection, showing stable beam formation over more than a thousand consecutive events with an injection probability of 95%. The plasma cathode is highly tunable, resulting in the injection of electron bunches of tens of pC of charge, energies of up to 79 MeV, and relative energy spreads as low as a few percent. The stability of the injected beams was sufficiently high to experimentally determine their normalized emittance of 9.3 μm rms with a multishot method.