R-matrix propagation study of He scattering from NaCl(001) and its Kr overlayer

For the first time, we employ the R-matrix propagation technique of Stechel et al. to model the diffraction of atomic helium from a bare NaCl(001) surface and also from a NaCl(001) surface with a Kr overlayer. The Kr/NaCl(001) has recently been reported by De Kieviet et al. as the only known commens...

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Bibliographic Details
Published in:Surface science 2000-01, Vol.444 (1-3), p.87-98
Main Author: Heidinger, Linda E.
Format: Article
Language:English
Subjects:
Adatoms
Alkali halides
Atomic, molecular, and ion beam impact and interactions with surfaces
Atom–solid interactions
Atom–solid interactions, scattering, diffraction
Computer simulations
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Electron and ion emission by liquids and solids
impact phenomena
Exact sciences and technology
Impact phenomena (including electron spectra and sputtering)
Low index single crystal surfaces
Physics
Single crystal surfaces
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Summary:For the first time, we employ the R-matrix propagation technique of Stechel et al. to model the diffraction of atomic helium from a bare NaCl(001) surface and also from a NaCl(001) surface with a Kr overlayer. The Kr/NaCl(001) has recently been reported by De Kieviet et al. as the only known commensurate overlayer system with square symmetry. To verify this theoretically, we solve the close-coupling equation. The R-matrix propagation technique is used, since it has many computational advantages and will be shown to yield efficient and accurate results for such systems. Once the final R-matrix is obtained from this propagation method, scattering information is extracted from the S-matrix. We obtain excellent agreement between calculated relative intensities derived from the S-matrix elements and experimental relative intensities for the He/NaCl(001) system, and good agreement for the more interesting and complex He–Kr/NaCl(001) system. Corrections for inelastic effects have been attempted using the Debye–Waller factor, resulting in little or no improvement.
ISSN:0039-6028
1879-2758
DOI:10.1016/S0039-6028(99)00924-3