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Removal of surface relaxation of Cu(110) by hydrogen adsorption

Journal Article · · J. Vac. Sci. Technol., A; (United States)
DOI:https://doi.org/10.1116/1.574344· OSTI ID:6424272
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It is now established that the termination of a metal crystal by a vacuum causes oscillatory relaxation of the interplanar distances near the surface, even when there is no lateral reconstruction. Since the details of the driving forces for this oscillatory relaxation are not fully understood at the present time, we have undertaken low-energy electron diffraction (LEED)--IV experiments and calculations to study the structure of(1 x 1) Cu(110) as a function of atomic hydrogen concentration adsorbed at 90 K. At this temperature high-resolution electron energy-loss spectroscopy reveals that the hydrogen lies in inhomogeneous sites within the (110) troughs. At most coverages LEED indicates that the hydrogen is disordered. Hydrogen induced changes in the work function and in angle-resolved ultraviolet photoemission spectroscopy spectra are small, indicating a weak interaction between the hydrogen and copper substrate. This one-dimensional lattice gas causes a continuous shift in the Cu(110) interplanar distances, resulting eventually in a bulk lattice spacing between the top two layers. Subsurface lattice spacings change at a slower rate. We conclude that the simple model of an electrostatic driving force created by a lateral charge redistribution (see M. W. Finnis and V. Heine, J. Phys. F 4, L37 (1974)) can explain the nature of the experimental results. The adsorption of hydrogen reduces the charge-density corrugation of the surface, and eliminates the charge redistribution and related surface relaxation of the copper substrate.
Research Organization:
Department of Physics, Unversity of Pennsylvania, Philadelphia, Pennsylvania
OSTI ID:
6424272
Journal Information:
J. Vac. Sci. Technol., A; (United States), Journal Name: J. Vac. Sci. Technol., A; (United States) Vol. 5:4; ISSN JVTAD
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
360102* -- Metals & Alloys-- Structure & Phase Studies
360104 -- Metals & Alloys-- Physical Properties
ADSORPTION
COHERENT SCATTERING
COPPER
CRYSTAL STRUCTURE
DIFFRACTION
ELECTRON DIFFRACTION
ELEMENTS
FUNCTIONS
HYDROGEN
METALS
NONMETALS
OSCILLATIONS
RELAXATION
SCATTERING
SORPTION
SORPTIVE PROPERTIES
SURFACE PROPERTIES
TRANSITION ELEMENTS
WORK FUNCTIONS