Inter-step-edge correlations on crystalline surfaces measured with helium-atom scattering
- 15 July 1990
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review B
- Vol. 42 (2) , 1209-1216
- https://doi.org/10.1103/physrevb.42.1209
Abstract
For close-packed metal surfaces the large-angle scattering of helium atoms is dominated by short-range interactions with surface defects. Along certain azimuths, monatomic step edges are the major contributors to diffuse scattering. The broad intensity oscillations provide information on the local step shape, and the finer structure is an indication of interstep correlation, which becomes more prevalent at higher step densities. Differently oriented step edges scatter along different final azimuths and thus the correlations between like step edges are only observed. The energy dependence of angular scans has been used to investigate the correlation between step edges on a sputtered Cu(111) surface. Comparison with structure-factor calculations indicates the presence of (331) and (211) microfacets.Keywords
This publication has 20 references indexed in Scilit:
- Surface phonons on the Pt(111) surface: A comparison of He-scattering experiments with lattice-dynamical calculationsPhysical Review B, 1989
- Interpretation of diffuse He-atom scattering from stepsPhysical Review B, 1988
- Roughness of Cu (1,1,11): A very anisotropic faceSolid State Communications, 1987
- The role of surface defects in the adsorption and sesorption of hydrogen on Ni(111)Surface Science, 1987
- Structure and dynamics of periodic and randomly distributed surface features by high resolution helium atom scatteringJournal of Vacuum Science & Technology A, 1987
- Observation of Interference Oscillations in Helium Scattering from Single Surface DefectsPhysical Review Letters, 1986
- Roughening transition of high-index crystal faces: the case of copperJournal of Physics F: Metal Physics, 1985
- Scattering of atomic beams off stepped surfacesPhysical Review B, 1983
- LEED studies of surface imperfectionsApplications of Surface Science, 1982
- Diffraction by crystals with planar domainsActa Crystallographica Section A, 1981