Substrate-induced spin--orbit splitting of quantum-well and interface states in Au, Ag, and Cu layers of different thicknesses on W surfaces

The substrate-induced spin--orbit splitting of interface and quantum-well states formed in Au, Ag, and Cu layers on W(110) and Mo(110) surfaces has been revealed using angle- and spin-resolved photoelectron spectroscopy. It has been shown that the magnitude of the splitting depends noticeably on the...

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Veröffentlicht in:	Physics of the solid state 2010-07, Vol.52 (7), p.1515
Hauptverfasser:	Shikin, A.M, Rybkin, A.G, Marchenko, D.E, Usachov, D. Yu, Adamchuk, V.K, Varykhalov, A. Yu, Rader, O
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Sprache:	eng
Schlagworte:	Analysis Quantum wells
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description	The substrate-induced spin--orbit splitting of interface and quantum-well states formed in Au, Ag, and Cu layers on W(110) and Mo(110) surfaces has been revealed using angle- and spin-resolved photoelectron spectroscopy. It has been shown that the magnitude of the splitting depends noticeably on the atomic number of the substrate material and is markedly larger for layers of these metals on W(110), i.e., on the surface of a metal with a larger atomic number ([Z.sub.W] = 74), than on the surface of Mo(110), i.e., an element with a smaller atomic number ([Z.sub.Mo] = 42), while depending only weakly on the atomic number of the adsorbed metal. Measurements of the dispersion of the formed quantum-well states have shown that the substrate-induced spin--orbit splitting increases with increasing parallel component of the photoelectron momentum (which correlates with the Rashba model) for all thicknesses of deposited films (up to 10 ML). The magnitude of induced spin--orbit splitting of the interface states evolving in monolayer Au, Ag, and Cu coatings on W(110) and Mo(110) decreases with increasing parallel component of the excited photoelectron momentum.
doi_str_mv	10.1134/S1063783410070280
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title	Substrate-induced spin--orbit splitting of quantum-well and interface states in Au, Ag, and Cu layers of different thicknesses on W surfaces
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