Generalized spin-orbit interaction in two-dimensional electron systems

In frame of Dirac quantum field theory that describes electrons and positrons as elementary excitations of the spinor field, the generalized operator of the spin-orbit interaction is obtained using non-relativistic approximation in the Hamilton operator of the spinor field taking into account the pr...

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Veröffentlicht in:	arXiv.org 2020-03
Hauptverfasser:	Eremko, A A, Brizhik, L, Loktev, V M
Format:	Artikel
Sprache:	eng
Schlagworte:	Current carriers Dirac equation Electron spin Electrons Elementary excitations Field theory Hall effect Heterostructures Physics - Mesoscale and Nanoscale Physics Physics - Quantum Physics Polarization (spin alignment) Positrons Quantum field theory Quantum theory Quantum wells Schrodinger equation Spin-orbit interactions
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description	In frame of Dirac quantum field theory that describes electrons and positrons as elementary excitations of the spinor field, the generalized operator of the spin-orbit interaction is obtained using non-relativistic approximation in the Hamilton operator of the spinor field taking into account the presence of an external potential. This operator is shown to contain a new term in addition to the known ones. By an example of a model potential in the form of a quantum well, it is demonstrated that the Schroedinger equation with the generalized spin-orbit interaction operator describes all spin states obtained directly from the Dirac equation. The dependence of the spin-orbit interaction on the spin states in quasi-two-dimensional systems of electrons localized in a quantum well is analyzed. It is demonstrated that the electric current in the quantum well layer induces the spin polarization of charge carriers near the boundary surfaces of the layer, with the polarization of the charge carriers being opposite at the different surfaces. This phenomenon appears due to the spin-orbit interaction and is known as the spin Hall effect, which was observed experimentally in heterostructures with the corresponding geometry.
doi_str_mv	10.48550/arxiv.2003.14245
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subjects	Current carriers Dirac equation Electron spin Electrons Elementary excitations Field theory Hall effect Heterostructures Physics - Mesoscale and Nanoscale Physics Physics - Quantum Physics Polarization (spin alignment) Positrons Quantum field theory Quantum theory Quantum wells Schrodinger equation Spin-orbit interactions
title	Generalized spin-orbit interaction in two-dimensional electron systems
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