S. D. Fanchenko scite author profile

Measured reflection electron energy loss spectra excited by 2 keV electrons in Si are simulated by a Monte Carlo approach using the Chen-Kwei theory to calculate the position-dependent inverse inelastic mean free path. By comparing measured and calculated spectra, several prescriptions concerning the momentum transfer dependence of the material dielectric function are discussed. Our results lend support to the approximation (often taken with the only justification of making relations simpler) of neglecting the momentum transfer component normal to the surface in the surface region.

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On a dielectric approach to understand Electron Energy Loss Spectra from carbon materials

Calliari

Fanchenko

Filippi

2007

Diamond and Related Materials

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The Influence of Metal Nanoparticle Size Distribution in Photoelectron Spectroscopy

et al. 2008

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We present an innovative approach to characterize small metal nanoclusters embedded in an amorphous carbon matrix. A simple mathematical relation linking binding energy shifts to the mean nanoparticle (NP) dimensions allows determination of the distribution of NP sizes by fitting the Au 4f X-ray photoemission spectrum. The NP size distributions obtained using our method are compared with those obtained from X-ray diffraction spectra.

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S. D. Fanchenko

Plasmon features in electron energy loss spectra from carbon materials

Composition and structure of a-C:Au nanocomposites obtained by physical vapour deposition

Momentum transfer dependence of reflection electron energy loss spectra: theory and experiment

On a dielectric approach to understand Electron Energy Loss Spectra from carbon materials

The Influence of Metal Nanoparticle Size Distribution in Photoelectron Spectroscopy

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