Electron-impact ionization of argon using the R-matrix with a pseudo-states method

C P Ballance, D C Griffin, M S Pindzola, D Loch

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19 Citations (Scopus)

Abstract

Electron-impact ionization cross sections for argon are calculated using both non-perturbative R-matrix with pseudo-states (RMPS) and perturbative distorted-wave methods. At twice the ionization potential, the 3p(61)S ground-term cross section from a distorted-wave calculation is found to be a factor of 4 above crossed-beams experimental measurements, while with the inclusion of term-dependent continuum effects in the distorted-wave method, the perturbative cross section still remains almost a factor of 2 above experiment. In the case of ionization from the metastable 3p(5)4s(3)P term, the distorted-wave ionization cross section is also higher than the experimental cross section. On the other hand, the ground-term cross section determined from a nonperturbative RMPS calculation that includes 27 LS spectroscopic terms and another 282 LS pseudo-state terms to represent the high Rydberg states, and the target continuum is found to be in excellent agreement with experimental measurements, while the RMPS result is below the experimental cross section for ionization from the metastable term. We conclude that both continuum term dependence and interchannel coupling effects, which are included in the RMPS method, are important for ionization from the ground term, and interchannel coupling is also significant for ionization from the metastable term
Original languageEnglish
Pages (from-to)F27-F33
JournalJournal of Physics B: Atomic Molecular and Optical Physics
Volume40
Issue number3
Publication statusPublished - 2007

Keywords

  • ARGON
  • ATOMS
  • BEAM
  • CROSS-SECTION
  • CROSS-SECTIONS
  • Cross sections
  • DEPENDENCE
  • ELECTRON-IMPACT
  • ELECTRON-IMPACT IONIZATION
  • ELECTRON-IMPACT-IONIZATION
  • HELIUM
  • HYDROGEN SCATTERING
  • IONIZATION
  • Measurement
  • NEON
  • RYDBERG STATES
  • STATE
  • STATES
  • TERMS
  • THRESHOLD
  • TOTAL CROSS-SECTIONS
  • cross section
  • excitation
  • ionization potential

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