The electron-excited P LVV Auger lineshape has been investigated as a function of the beam incidence angle. The crystalline effects on the outgoing Auger electrons are avoided by using an angle-integrated electron analyser (CMA). Auger signal intensity as well as lineshape changes are observed on varying the beam incidence angle. The experimental results have been explained in terms of the angular dependence of the intensity and anisotropy of background, Auger signals from surface and bulk and their plasmon losses.
AUGER LINESHAPE MODULATION BY SCATTERING-INTERFERENCE OF PRIMARY ELECTRONS
DIBONA A;
1995
Abstract
The electron-excited P LVV Auger lineshape has been investigated as a function of the beam incidence angle. The crystalline effects on the outgoing Auger electrons are avoided by using an angle-integrated electron analyser (CMA). Auger signal intensity as well as lineshape changes are observed on varying the beam incidence angle. The experimental results have been explained in terms of the angular dependence of the intensity and anisotropy of background, Auger signals from surface and bulk and their plasmon losses.File in questo prodotto:
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