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research article
Tunable Spin Gaps in a Quantum-Confined Geometry
We have studied the interplay of a giant spin-orbit splitting and of quantum confinement in artificial Bi-Ag-Si trilayer structures. Angle-resolved photoelectron spectroscopy reveals the formation of a complex spin-dependent gap structure, which can be tuned by varying the thickness of the Ag buffer layer. This provides a means to tailor the electronic structure at the Fermi energy, with potential applications for silicon-compatible spintronic devices.
Type
research article
Web of Science ID
WOS:000260776300053
Authors
•
•
Mirhosseini, Hossein
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Henk, Juergen
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Ast, Christian R.
•
Publication date
2008
Publisher
Published in
Volume
101
Article Number
196805
Subjects
Peer reviewed
REVIEWED
EPFL units
Available on Infoscience
April 1, 2010
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