Exchange-enhanced Spin-splitting in a Two-dimensional Electron Gas in the Presence of the Rashba Sin-orbit Interaction
Date
2006
Authors
Yang, C.H.
Xu, Wen
Zeng, Z.
Tang, C S
Zhang, Chao
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Elsevier
Abstract
Using a Green's function approach on the basis of the random-phase approximation, we examine how the many-body effect such as exchange interaction affects the spin-splitting in a two-dimensional electron gas system in the presence of the Rashba spin-orbit interaction and Zeeman splitting and of quantizing magnetic fields. We show that such a many-body interaction can lower the energy levels of the system and enlarge the spin-splitting around the Fermi level. We also find that the exchange-enhanced spin-splitting is mainly achieved via intra-Landau level scattering.
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Keywords: Approximation theory; Fermi level; Green's function; Magnetic field effects; Random processes; Two dimensional electron gas; Exchange enhanced spin splitting; Intra Landau level scattering; Many body interaction; Rashba spin orbit interaction; Zeeman spli Exchange interaction; Rashba spin-orbit interaction; Two-dimensional electron gas
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Source
Physica E
Type
Journal article
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2037-12-31
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