Doubly differential cross sections for proton-impact ionization of argon
- 1 September 1979
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review A
- Vol. 20 (3) , 825-833
- https://doi.org/10.1103/physreva.20.825
Abstract
Proton-impact-ionization cross sections for argon which are differential in the energy and angle of the ejected electron have been calculated within the framework of the Born approximation using both Hartree-Slater and Hartree-Fock wave functions for the ejected electron. Results of the two types of calculations are compared with each other and with experiment. Differential cross sections for all five sub shells of argon are examined and particular attention is given to some interesting features of the -shell cross sections. The range of applicability of the theoretical models is discussed.
Keywords
This publication has 24 references indexed in Scilit:
- Atomic Photoelectron Spectroscopy. IIPublished by Elsevier ,1978
- Energy and angular distribution of electrons ejected from argon by 5-keV to 1.5-MeV protonsPhysical Review A, 1977
- Comparison of experimental and theoretical electron ejection cross sections in helium by proton impact from 5 to 100 keVPhysical Review A, 1976
- Energy and angular distribution of electrons ejected from helium by fast protons and electrons: Theory and experimentPhysical Review A, 1975
- Angular Distributions of Electrons Ejected from Helium by Proton ImpactPhysical Review A, 1973
- Angular and Energy Distribution of Cross Sections for Electron Production by 50-300-keV-Proton Impacts on,, Ne, and ArPhysical Review A, 1971
- Angular and energy distribution of electrons produced by 200–500 keV protons in gasesThe European Physical Journal A, 1971
- Theory of the Forward Peak in the Angular Distribution of Electrons Ejecteed by Fast ProtonsPhysical Review A, 1970
- Atomic Potential Wells and the Periodic TablePhysical Review B, 1968
- Energy and Angular Distributions of Electrons Ejected from Hydrogen and Helium by 100- to 300-keV ProtonsPhysical Review B, 1966