9 research outputs found
Zeeman ratchets for ballistic spin currents
Get PDFWe investigate the possiblity of creating directed spin-polarized currents in
a two-dimensional electron gas (2DEG) subject to an asymmetric magnetic field
and an external adiabatic driving. We thereby generalize concepts of quantum
charge ratchets to the case with spin. Due to the Zeeman term in the
Hamiltonian, spin-up and -down electrons experience different effective
potentials, which can be tailored to achieve net spin currents without
corresponding charge currents. We consider ballistic, coherent transport in
waveguides defined in a 2DEG, where the magnetic field modulation is induced by
ferromagnetic stripes on top of the 2DEG.Comment: 4 pages, 4 figures, accepted for publication in physica status solidi
(c) (2006
The spin-double refraction in two-dimensional electron gas
Full text linkWe briefly review the phenomenon of the spin-double refraction that
originates at an interface separating a two-dimensional electron gas with
Rashba spin-orbit coupling from a one without. We demonstrate how this
phenomenon in semiconductor heterostructures can produce and control a
spin-polarized current without ferromagnetic leads
Spin beam splitter based on Goos-Hänchen shifts in two-dimensional electron gas modulated by ferromagnetic and Schottky metal stripes
No full textElectron-spin filter based on a novel magnetic nanostructure with zero average magnetic field
No full textThe influence of the Rashba interaction on spin accumulation and spin current of semiconductor based finite width quantum rings
No full textManipulating spin polarization via spin-orbit coupling in a magnetic microstructure constructed on surface of semiconductor heterostructure
No full textGoos-Hänchen effect of spin electron beams in a parallel double δ-barrier magnetic nanostructure
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