Structural effects in single-crystal photoelectron, Auger-electron, and Kikuchi-electron angular diffraction patterns

The full-hemisphere diffraction patterns of primary photoelectrons, photoemission Auger electrons, and Kikuchi electrons are reported for single-crystal surfaces of Cu(100), Cu(111), Cu(110), Ir(111), and Ag(100), to test models for direct structure determinations from angle-dependent final-state di...

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Published inSurface science Vol. 258; no. 1; pp. 313 - 327
Main Authors Han, Z.-L., Hardcastle, S., Harp, G.R., Li, H., Wang, X.-D., Zhang, J., Tonner, B.P.
Format Journal Article
LanguageEnglish
Published Lausanne Elsevier B.V 01.11.1991
Amsterdam Elsevier Science
New York, NY
Subjects
Applied sciences
Condensed matter: structure, mechanical and thermal properties
Exact sciences and technology
Metals. Metallurgy
Physics
Solid surfaces and solid-solid interfaces
Surface structure and topography
Surfaces and interfaces; thin films and whiskers (structure and nonelectronic properties)
Silver
Electron diffraction
Theoretical study
Transition metal
Diffraction pattern
Photoelectron emission
Auger emission
Crystal face
Iridium
Copper
Surface
Online AccessGet full text
ISSN0039-6028
1879-2758
DOI10.1016/0039-6028(91)90926-J

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Abstract The full-hemisphere diffraction patterns of primary photoelectrons, photoemission Auger electrons, and Kikuchi electrons are reported for single-crystal surfaces of Cu(100), Cu(111), Cu(110), Ir(111), and Ag(100), to test models for direct structure determinations from angle-dependent final-state diffraction patterns. Our measurements show a simple correlation between the low-index crystallographic directions of the substrate and local intensity maxima in the electron angular distributions. We find that the angular anisotropy can be qualitatively explained in all cases studied by final-state elastic forward scattering. The strong forward scattering features in photoemission diffraction patterns are used to measure bond angles and determine the structure of Cu ultrathin films on Ir(111). In addition, a radial image function based on a holographic Fourier-transform algorithm is evaluated for the determination of bond lengths from three-dimensional images reconstructed from the two-dimensional diffraction pattern.
AbstractList The full-hemisphere diffraction patterns of primary photoelectrons, photoemission Auger electrons, and Kikuchi electrons are reported for single-crystal surfaces of Cu(100), Cu(111), Cu(110), Ir(111), and Ag(100), to test models for direct structure determinations from angle-dependent final-state diffraction patterns. Our measurements show a simple correlation between the low-index crystallographic directions of the substrate and local intensity maxima in the electron angular distributions. We find that the angular anisotropy can be qualitatively explained in all cases studied by final-state elastic forward scattering. The strong forward scattering features in photoemission diffraction patterns are used to measure bond angles and determine the structure of Cu ultrathin films on Ir(111). In addition, a radial image function based on a holographic Fourier-transform algorithm is evaluated for the determination of bond lengths from three-dimensional images reconstructed from the two-dimensional diffraction pattern.
The full-hemisphere diffraction patterns of primary photoelectrons, photoemission Auger electrons, and Kikuchi electrons are reported for single-crystal surfaces of Cu(100), Cu(111), Cu(110), Ir(111), and Ag(100), to test models for direct structure determinations from angle-dependent final-state diffraction patterns. The measurements show a simple correlation between the low-index crystallographic directions of the substrate and local intensity maxima in the electron angular distributions. It is found that the angular anisotropy can be qualitatively explained in all cases studied by the final-state elastic forward scattering. The strong forward scattering features in photoemission diffraction patterns are used to mesure bond angles and determine the structure of Cu ultrathin films on Ir(111). In addition, a radial image function based on a holographic Fourier-transform algorithm is evaluated for the determintaion of bond lengths from three-dimensional iamges reconstructed from the two-dimensional diffraction pattern.
Author Harp, G.R.
Wang, X.-D.
Hardcastle, S.
Tonner, B.P.
Li, H.
Han, Z.-L.
Zhang, J.
Author_xml – sequence: 1
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  surname: Han
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Issue 1
Keywords Silver
Electron diffraction
Theoretical study
Transition metal
Diffraction pattern
Photoelectron emission
Auger emission
Crystal face
Iridium
Copper
Surface
Language English
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Snippet The full-hemisphere diffraction patterns of primary photoelectrons, photoemission Auger electrons, and Kikuchi electrons are reported for single-crystal...
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SubjectTerms Applied sciences
Condensed matter: structure, mechanical and thermal properties
Exact sciences and technology
Metals. Metallurgy
Physics
Solid surfaces and solid-solid interfaces
Surface structure and topography
Surfaces and interfaces; thin films and whiskers (structure and nonelectronic properties)
Title Structural effects in single-crystal photoelectron, Auger-electron, and Kikuchi-electron angular diffraction patterns
URI https://dx.doi.org/10.1016/0039-6028(91)90926-J
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