Diffraction of He atoms from Xe monolayer adsorbed on the graphite (0 0 0 1) revisited: the importance of multiple scattering processes

@article{iber2003DiffractionOH,
  title={Diffraction of He atoms from Xe monolayer adsorbed on the graphite (0 0 0 1) revisited: the importance of multiple scattering processes},
  author={Antonio {\vS}iber and Branko Gumhalter},
  journal={Surface Science},
  year={2003},
  volume={529},
  pages={259-264}
}
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The adsorption of xenon on the sodium chloride (001) surface has been studied using high-resolution helium atom scattering. From the temperature dependence of the specular intensity in the range
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Accurate close‐coupling calculations are carried out for the scattering of helium atoms from a monolayer of Xe on the (0001) face of graphite, using atom‐surface potentials based on pairwise
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In order to address the problem of three‐body interactions in gas–surface scattering, we considered the collision of a He atom with the (0001) surface of graphite coated by a monolayer of Xe. To
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Atomic beam techniques are presently being used in many branches of surface physics such as studies of the particle-surface physisorption potential, surface structure, surface phonons, nucleation and
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This paper is the first in a series covering our experiments examining the physical properties of ordered overlayers of Ar, Kr, and Xe physisorbed on Ag(111). In this paper, we examine the desorption
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The elastic scattering of an atom from a solid surface is considered in the close‐coupling formulation. The resulting sets of coupled differential equations are solved by a technique developed by
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