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Theory of Spin Polarized Metastable Atom De-excitation Spectroscopy; Ni-He

Published

Author(s)

David R. Penn, S Apell

Abstract

Metastable spin-polarized He* atoms incident on a Ni surface undergo deexcitation in a process which yields electrons from the Ni. The number produced is observed to depend on the relative spin of the Ni and the He* atoms. The normalized difference in the ejected-electron intensity produced by He* atoms with opposite spin polarizations increases dramatically with increasing kinetic energy of the electrons. A theory of this asymmetry is presented. It is f ound that the experimental results can be reproduced only by the use of a realistic potential for the Ni electrons in the vacuum region. With such a potential it is found that He+ ions which result from the He*-surface interaction are neutralized at ~4.5 {Aring} from the Ni surface, a much larger distance than given by previous estimates. The experiment is shown to reflect the polarization of Ni electrons at the He ion, and it is estimated that the Ni magnetization at the Fermi energy and far from the Ni surface is -20%.
Citation
Physical Review B (Condensed Matter and Materials Physics)
Volume
41
Issue
6

Citation

Penn, D. and Apell, S. (1990), Theory of Spin Polarized Metastable Atom De-excitation Spectroscopy; Ni-He, Physical Review B (Condensed Matter and Materials Physics) (Accessed December 14, 2024)

Issues

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Created January 1, 1990, Updated February 19, 2017