Inelastic Energy Transfer in Interactions with Surfaces and Adsorbates

Inelastic Energy Transfer in Interactions with Surfaces and Adsorbates

By: A.C. Levi (editor), etc. (editor), F. Flores (editor), B. Gumhalter (editor)Hardback

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Description

The aim of these proceedings was to stress and underline common aspects of dynamical properties of surfaces and adsorbates which can sustain energy transfer, and to assess the role and importance of specific energy and charge transfer mechanisms in constituting the properties of surface and adsorbate electronic, vibronic, photoadsorption and similar spectra, the dynamics of adsorption/desorption and trapping proceses, surface scattering phenomena involving electrons, ions or neutral particles etc. In this regard, special attention has been paid to model descriptions and discussions of inelastic interactions, screening and charge transfer processes encountered in XPS, AES, EELS, NEXAFS and electron, atomic/molecular and ion beam scattering experiments.

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Contents

Phonons at surfaces and their excitation by external probes, V. Bortolani; electronic response of surfaces and adsorbates, B. Gumhalter; inelastic effects in the electronic spectra of adsorbates, D. Menzell; quantum versus semiclassical regimes of sticking, W. Brenig; vibrational lineshapes of adsorbates, D.C. Langreth; inelastic effects in AES of surfaces and adsorbates, M. Cini; the role of adsorbate degrees of freedom in sticking, W. Brenig; inelastic effects in ESD and PSD from surfaces, D. Menzel; charge exchange in particle scattering from surfaces, W. Heiland; light ion scattering from surfaces, F. Flores; surface plasmons and electron microscopy, P. Echenique; inelastic effects in EELS of metal surfaces, M. Rocca; inelastic He atom scattering (HAS) from surfaces, V. Bortolani and V. Celli; Debye-Waller factor in atom-surface scattering, A.C. Levi; multiphoton excitation in HAS from surfaces, V. Celli.

Product Details

  • publication date: 11/01/1993
  • ISBN13: 9789810213107
  • Format: Hardback
  • Number Of Pages: 200
  • ID: 9789810213107
  • ISBN10: 9810213107

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