Table 1

Chapter Concepts

Substances / Molecular Formulas	110Ag; Ag 110; Ag(110); Ag-110; Au(110)1x2; CaF₂(111); Cu (100); Cu(014); Cu(110); Cu₃Au(100); InP(100)4x2; Ir(110); Mo(111); Ni (110); NiAl(100); NiAl(110); NiAl(111); Pt(110)1x2; Pt₃Sn(100)c(2x2); Pt₃Sn(111)2x2; PtNi(111)1x2; Si(100)2x1; Si(111)7x7; Silver, isotope of mass 110; Silver-110; SmB₆(100); TiC(100); TiC(111); UO₂(100)c(2x2); UO₂(110); UO₂(111); W (110); W(112)
Element Systems	Ag; Ag (Silver); Al-Ni; Au; Au (Gold); Au-Cu; B-Sm; C-Ti; Ca-F; Cu; Cu (Copper); In-P; Ir; Ir (Iridium); Mo; Mo (Molybdenum); Ni; Ni (Nickel); Ni-Pt; O-U; Pt; Pt (Platinum); Pt-Sn; Si; Si (Silicium); Si (Silicon); W; W (Tungsten)
CAS Registry Numbers	14391-76-5
Properties	Debye temperature; LEED; LEED pattern; RHEED; crystal structure; distance change; electron scattering data; ion scattering data; lateral displacement; lattice parameter; surface determination; surface structure
Keywords	interaction; layer; surface
Substrates	atom; charged particle; first layer atom

Source

Title	Table 1
In	6.3.2 Data
Author	P. Alkemade
Part of	Landolt-Börnstein - Group III Condensed Matter
	Numerical Data and Functional Relationships in Science and Technology
Volume	24c: Interaction of Charged Particles and Atoms with Surfaces
Edited by	G. Chiarotti
Chapter-DOI	10.1007/10086066_44
Book-DOI	10.1007/b87125 (Volume in Bookshelf)

Cite as

RIS-Export	Alkemade, P.: Table 1. Chiarotti, G. (ed.). SpringerMaterials - The Landolt-Börnstein Database (http://www.springermaterials.com). DOI: 10.1007/10086066_44

Abstract

	Table 1 in '6.3.2 Data', part of 'Landolt-Börnstein - Group III Condensed Matter: Numerical Data and Functional Relationships in Science and Technology, Volume 24c: Interaction of Charged Particles and Atoms with Surfaces'.
	The table in this chapter summarizes virtually all studies on elastic and inelastic scattering of ions from single crystal surfaces. Data for low energy ion scattering (LEIS) of surfaces are listed in the table. The surfaces ( NiAl(100), NiAl(110), NiAl(111), Pt(110), PtNi(111), Pt3Sn(100), Pt3Sn(111), Si(100), Si(111), SmB6(100), TiC(100), TiC(111), UO2(100), UO2(110), UO2(111), UO2(553), W(110), W(211)), LEED pattern, primary beam energy data, primary beam ion, main ISS techniques, measured change in the first to second layer distance (Δd12), measured change in the second to third layer distance (Δd23), measured lateral displacement of first layer atoms (Δy1), measured ratio between thermal vibration amplitudes in the first layer and in the bulk, ρ1/ρb, or surface Debye temperature, ΘD, and additional experimental results are listed in different columns of the table. The ISS techniques include ion scattering spectrometry (ISS), impact collision ISS (ICISS), neutral ICISS (NICISS), time-of-flight scattering and recoiling spectrometry (TOFSARS), ion-induced Auger electron spectrometry, shadowing and blocking, channeling and transmission channeling.

Table 1 in '6.3.2 Data', part of 'Landolt-Börnstein - Group III Condensed Matter: Numerical Data and Functional Relationships in Science and Technology, Volume 24c: Interaction of Charged Particles and Atoms with Surfaces'.

The table in this chapter summarizes virtually all studies on elastic and inelastic scattering of ions from single crystal surfaces. Data for low energy ion scattering (LEIS) of surfaces are listed in the table. The surfaces ( NiAl(100), NiAl(110), NiAl(111), Pt(110), PtNi(111), Pt3Sn(100), Pt3Sn(111), Si(100), Si(111), SmB6(100), TiC(100), TiC(111), UO2(100), UO2(110), UO2(111), UO2(553), W(110), W(211)), LEED pattern, primary beam energy data, primary beam ion, main ISS techniques, measured change in the first to second layer distance (Δd12), measured change in the second to third layer distance (Δd23), measured lateral displacement of first layer atoms (Δy1), measured ratio between thermal vibration amplitudes in the first layer and in the bulk, ρ1/ρb, or surface Debye temperature, ΘD, and additional experimental results are listed in different columns of the table. The ISS techniques include ion scattering spectrometry (ISS), impact collision ISS (ICISS), neutral ICISS (NICISS), time-of-flight scattering and recoiling spectrometry (TOFSARS), ion-induced Auger electron spectrometry, shadowing and blocking, channeling and transmission channeling.

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