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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SHOWING 1-10 OF 39 REFERENCES
Inelastic diffraction of He atoms from Xe overlayer adsorbed on the graphite (0001)
Diffraction of He atoms from A Xe overlayer adsorbed on graphite (0001)
A helium atom scattering study of the structure and dynamics of a Xe monolayer on NaCl(001)
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
Selective adsorption resonances in the scattering of helium atoms from xenon coated graphite: Close‐coupling calculations and potential dependence
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
Combined He-atom scattering and theoretical study of the low energy vibrations of physisorbed monolayers of Xe on Cu(111) and Cu(001)
The surface-phonon-dispersion curves of commensurate Xe monolayers on Cu(111) and incommensurate Xe monolayers on Cu(001) surfaces have been measured using He-atom scattering (HAS) time-of-flight
Two- and three-body forces in the interaction of He atoms with Xe overlayers adsorbed on (0001) graphite
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
ATOMIC BEAM DIFFRACTION FROM SOLID SURFACES
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
Dynamics of xenon-covered graphite slabs
Following our earlier work [I; Phys. Rev. B 23, 4208 (1981)] on the dynamics of the graphite (0001) free surface, we present here a full dynamical calculation of a (0001) graphite slab with
Inelastic helium scattering studies of ordered Ar, Kr, and Xe monolayers physisorbed on Ag(111): Dispersion curves, scattering cross sections, and excitation line shapes
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
Theoretical studies of atom‐solid elastic scattering: He+LiF
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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