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Surface Structures from LEED: Metal Surfaces and Metastable Phases

Jona, F. / Marcus, P. M.

Abstract We review two notable achievements of low-energy electron diffraction (LEED) research: (1) the discovery and study of surface relaxation and (2) the identification and characterization of epitaxially-grown metastable phases. Both achievements are linked to the ability of LEED to determine the atomic structure of 4–5 layers of atoms on crystal surfaces. To be sure, other surface-sensitive techniques have structure capabilities, notably high-, medium-, and low-energy ion scattering spectroscopy (HEISS, MEISS, LEISS), surface extended X-ray absorption fine structure (SEXAFS), and high-energy electron diffraction (HEED), but LEED has been, to date, the most productive technique with regard to the achievments mentioned above.

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Surface Structures from LEED: Metal Surfaces and Metastable Phases

Jona, F. / Marcus, P. M.

Abstract We review two notable achievements of low-energy electron diffraction (LEED) research: (1) the discovery and study of surface relaxation and (2) the identification and characterization of epitaxially-grown metastable phases. Both achievements are linked to the ability of LEED to determine the atomic structure of 4–5 layers of atoms on crystal surfaces. To be sure, other surface-sensitive techniques have structure capabilities, notably high-, medium-, and low-energy ion scattering spectroscopy (HEISS, MEISS, LEISS), surface extended X-ray absorption fine structure (SEXAFS), and high-energy electron diffraction (HEED), but LEED has been, to date, the most productive technique with regard to the achievments mentioned above.

Surface Structures from LEED: Metal Surfaces and Metastable Phases

Jona, F. / Marcus, P. M.

Abstract We review two notable achievements of low-energy electron diffraction (LEED) research: (1) the discovery and study of surface relaxation and (2) the identification and characterization of epitaxially-grown metastable phases. Both achievements are linked to the ability of LEED to determine the atomic structure of 4–5 layers of atoms on crystal surfaces. To be sure, other surface-sensitive techniques have structure capabilities, notably high-, medium-, and low-energy ion scattering spectroscopy (HEISS, MEISS, LEISS), surface extended X-ray absorption fine structure (SEXAFS), and high-energy electron diffraction (HEED), but LEED has been, to date, the most productive technique with regard to the achievments mentioned above.

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Title:

Surface Structures from LEED: Metal Surfaces and Metastable Phases

Contributors:

Jona, F. (author) / Marcus, P. M. (author)

Published in:

The Structure of Surfaces II ; 90-99

Springer Series in Surface Sciences ; 11

Publication date:

1988-01-01

Size:

10 pages

ISBN:

978-3-642-73345-1 , 978-3-642-73343-7

ISSN:

DOI:

https://doi.org/10.1007/978-3-642-73343-7_16

Type of media:

Article/Chapter (Book)

Type of material:

Electronic Resource

Language:

English

Keywords:

Cohesive Energy , Material Research Society , Surface Relaxation , Equilibrium Lattice Constant , LEED Pattern Physics , Surface and Interface Science, Thin Films , Surfaces and Interfaces, Thin Films , Crystallography

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