Surface plasmon excitation at a AU surface by 150-40,000 eV electrons
Date
2007
Authors
Werner, Wolfgang
Went, Michael
Vos, Maarten
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Elsevier
Abstract
Spectra of electrons with energies between 5 and 40 keV reflected from a homogeneous Au surface have been measured and analyzed to give the normalized distribution of energy losses in a single surface and volume excitation, as well as the total probability for excitation of surface plasmons. The resulting single scattering loss distributions compare excellently in (absolute units) with data from previous work taken at lower energies (150-3400 eV). An empirical relationship is derived for the total surface excitation probability as a function of the energy. For high energies the surface scattering zone represents only a small fraction of a typical electron trajectory and hence interference effects should be small at these energies. Since we find that both the energy dependence of the surface plasmon excitation probability and the shape of the single scattering loss distributions are the same at high and low electron energies, we conclude that there is no evidence for interference effects in the entire energy range studied.
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Keywords
Keywords: Energy dissipation; Excitation energy; Gold; Surface plasmon resonance; Surface properties; Electron trajectory; Surface excitation probability; Surface plasmon excitation; Electron transport properties Au; Elastic; Electron; Inelastic; Scattering; Surface plasmon
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Source
Surface Science
Type
Journal article
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2037-12-31
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