Physical Review Special Topics. Accelerators and Beams (Oct 2006)

Plasma production via field ionization

  • C. L. O’Connell,
  • C. D. Barnes,
  • F.-J. Decker,
  • M. J. Hogan,
  • R. Iverson,
  • P. Krejcik,
  • R. Siemann,
  • D. R. Walz,
  • C. E. Clayton,
  • C. Huang,
  • D. K. Johnson,
  • C. Joshi,
  • W. Lu,
  • K. A. Marsh,
  • W. Mori,
  • M. Zhou,
  • S. Deng,
  • T. Katsouleas,
  • P. Muggli,
  • E. Oz

DOI
https://doi.org/10.1103/PhysRevSTAB.9.101301
Journal volume & issue
Vol. 9, no. 10
p. 101301

Abstract

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Plasma production via field ionization occurs when an incoming particle beam is sufficiently dense that the electric field associated with the beam ionizes a neutral vapor or gas. Experiments conducted at the Stanford Linear Accelerator Center explore the threshold conditions necessary to induce field ionization by an electron beam in a neutral lithium vapor. By independently varying the transverse beam size, number of electrons per bunch, or bunch length, the radial component of the electric field is controlled to be above or below the threshold for field ionization. Additional experiments ionized neutral xenon and neutral nitric oxide by varying the incoming beam’s bunch length. A self-ionized plasma is an essential step for the viability of plasma-based accelerators for future high-energy experiments.