Title of article
Atomic structure and electronic properties of Ni3Al(0 0 1) surface
Author/Authors
Kurnosikov، نويسنده , , O. and Jurczyszyn، نويسنده , , L. and Pieczyrak، نويسنده , , B. and Krupski، نويسنده , , A.، نويسنده ,
Issue Information
هفته نامه با شماره پیاپی سال 2008
Pages
6
From page
2994
To page
2999
Abstract
We present the results of experimental and theoretical study of the structural and electronic properties of the (0 0 1) surface of an ordered, paramagnetic Ni3Al alloy. Experimental part of this work is based on STM measurements which enabled us to obtain, for the first time, images of the Ni3Al(0 0 1) surface with atomic resolution. Topographies of these images indicate the presence of a superstructure with the square unit cell and the lattice parameter equal to the distance between nearest surface Al or Ni atoms. We have observed that this order of the Ni3Al(0 0 1) surface has a long-range character. This is remarkably different from the Ni3Al(1 1 1) surface, where a (2 × 2) order (indicated by previous STM study) appears only within small surface domains. Our theoretical study of Ni3Al(0 0 1) is based on ab initio calculations performed in the framework of density-functional theory and the use of a plane wave basis set. The obtained results indicate that changes of the atomic positions caused by the relaxation process are small and practically limited to the three topmost atomic layers. However, in the relaxed structure, surface Al atoms have higher vertical positions than surface Ni atoms, in accordance with experimental data provided by LEED measurements. We have also analyzed the differences between results of structural calculations performed independently using LDA and GGA descriptions of the exchange-correlation effects, and found that the GGA results are in a considerably better agreement with LEED data than the corresponding LDA results or the results of earlier theoretical studies.
Keywords
Density-functional calculations , Scanning tunneling microscopy (STM) , Low index single crystal surfaces , nickel , aluminum , Metal–metal interfaces
Journal title
Surface Science
Serial Year
2008
Journal title
Surface Science
Record number
1703740
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