AIP Advances (May 2023)

Tunnel ionization within a one-dimensional, undriven plasma sheath

  • Taylor Hall,
  • Russell Hooper,
  • Nishant Patel,
  • Jose L. Pacheco

DOI
https://doi.org/10.1063/5.0142250
Journal volume & issue
Vol. 13, no. 5
pp. 055315 – 055315-8

Abstract

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In high density, high temperature plasmas, the plasma sheath that develops can result in extremely high electric fields, on the order of tens to hundreds of V/nm. Under the right conditions, these electric fields can reach magnitudes that can increase the probability of electron tunneling ionization to occur, resulting in one or more electron-ion pairs. The presence of tunneling ionization can then modify the development of the plasma sheath, as well as properties such as the ion and electron densities and plasma potential. The tunnel ionization process for hydrogen atoms is demonstrated, in this work, as implemented in a Sandia National Laboratories, particle-in-cell code Aleph. Results are presented for the application of the tunnel ionization process to a one-dimensional, undriven plasma sheath. Additional results for cases that consider warm ions and neutrals, the inclusion of electron–neutral collisions, and the injection of neutral particles, as well as the application to various plasma devices, will be discussed.