Calculated surface segregation in transition metal alloys

Tipo de material: Texto

TextoSeries ; Computational Materials Science, 15(2), p.119-143, 1999Trabajos contenidos:

Ruban, A.V
Skriver, H.L

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Resumen: We outline a combination of numerical techniques which recently has been used to calculate heats of solution, surface energies and segregation energies for a large number of metals and alloys. The basic ingredients are density functional theory, a Green's function approach to the one-electron problem formulated within a linear u_n-tin orbitals basis, the coherent potential approximation corrected for charge transfer e.ects by the screened impurity model, and the atomic sphere approximation corrected for the higher multipoles of the charge density. We discuss the accuracy of the combined numerical technique and present results for the surface segregation of single impurities, the stability of pseudomorphically grown overlayers on Ni, and segregation pro®les in Rh75Pt25.

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Item type	Current library	Collection	Call number	Status	Date due	Barcode
Documentos solicitados	CICY Documento préstamo interbibliotecario	Ref1	B-12435 (Browse shelf(Opens below))	Available

We outline a combination of numerical techniques which recently has been used to calculate heats of solution, surface energies and segregation energies for a large number of metals and alloys. The basic ingredients are density functional theory, a Green's function approach to the one-electron problem formulated within a linear u_n-tin orbitals basis, the coherent potential approximation corrected for charge transfer e.ects by the screened impurity model, and the atomic sphere approximation corrected for the higher multipoles of the charge density. We discuss the accuracy of the combined numerical technique and present results for the surface segregation of single impurities, the stability of pseudomorphically grown overlayers on Ni, and segregation pro®les in Rh75Pt25.

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