Diffractive scattering of H atoms from an ordered xenon overlayer adsorbed on the (0001) surface of graphite
- 15 August 1981
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review B
- Vol. 24 (4) , 2307-2310
- https://doi.org/10.1103/physrevb.24.2307
Abstract
H-atom diffractive scattering was carried out from a lattice of xenon atoms adsorbed on the (0001) surface of graphite. The experimental data are well reproduced by a hard-wall scattering model, both with and without a correction due to the attractive part of the potential, resulting in peak-to-peak corrugations of 1.07±0.05 and 1.19±0.05 Å, respectively. A realistic H-Xe-C(0001) potential, based on the assumption of pairwise additive atom-adatom interactions, is calculated and found to have a corrugation of 0.99±0.05 Å.
Keywords
This publication has 23 references indexed in Scilit:
- Thermodynamics and kinetics of Xe monolayer adsorption on Cu(100) by LEED and AESSurface Science, 1979
- Misfit dislocations and lattice parameters of adsorbed xenon and krypton monolayers on graphiteSurface Science, 1978
- THE INTERACTIONS OF NITROGEN MOLECULES ADSORBED ON GRAPHITELe Journal de Physique Colloques, 1977
- Kinetics of adsorption and desorption using Auger electron spectroscopy: Application to xenon covered (0001) graphiteSurface Science, 1977
- On some properties of the two-dimensional phases condensed on a foreign substrateSurface Science, 1976
- AES and LEED studies of xenon adsorption on (100)NaClSurface Science, 1976
- ErratumSurface Science, 1976
- Observation of an adsorbed monolayer by transmission high energy electron diffractionSurface Science, 1976
- The scattering of helium atoms from adsorbed layers of molecules on a (001) surface of NaFSurface Science, 1974
- Auger electron spectroscopy and leed studies of adsorption isotherms: Xenon on (0001) graphiteSurface Science, 1973