He-atom scattering from ZnO surfaces: Calculation of diffraction peak using the Close-Coupling approach
- chair: Martinez-Casado, M. / Miret-Artes, S. / Meyer, B. / Träger, F. / Wöll, C. (2010)
- place: J. Phys. Condens. Matter (2010)
- Date: 2010
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Martinez-Casado, M. / Miret-Artes, S. / Meyer, B. / Träger, F. / Wöll, C. (2010): „He-atom scattering from ZnO surfaces: Calculation of diffraction peak using the Close-Coupling approach“. In: J. Phys. Condens. Matter (2010)
Abstract
Diffraction intensities of a molecular He beam scattered off the clean and water-covered ZnO(10¯10) surface have been simulated using a new potential model in conjunction with the close-coupling formalism. The effective corrugation functions for the systems He–ZnO(10¯10) and He–H2O/ZnO(10¯10) have been obtained from density functional theory calculations within the
Esbjerg–Nørskov approximation.
Using these data a potential model is constructed consisting of a corrugated Morse potential at small He–surface distances and a semiempiric attractive part at larger distances. The diffraction patterns obtained from close-coupling calculations agree with the experimental data within about 10%, which opens the possibility to simulate He diffraction from surfaces of any structural complexity and to verify surface and adsorbate structures proposed theoretically by employing this kind of analysis.
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