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HL: Halbleiterphysik
HL 44: II-VI Halbleiter
HL 44.6: Vortrag
Freitag, 31. März 2000, 11:45–12:00, H17
Semimagnetic resonant tunneling structures for manipulating spin-polarized electron current — •Thomas Gruber, Markus Keim, Roland Fiederling, Guenter Reuscher, Andreas Waag, Georg Schmidt, and Laurens Molenkamp — Physikalisches Institut EP III, Am Hubland, 97074 Wuerzburg
We report on the fabrication of BeTe/ZnMnSe/BeTe double barrier
resonant tunneling structures (RTS), which can be used for an
efficient injection of a spin-polarized electron current into
GaAs. The RTSs were grown on AlGaAs/GaAs p–i–n LEDs, which
serve as a detector of the spin-polarization of the injected
current via the polarization of the emitted light. The RTSs as
well as the LEDs were grown in an interconnetcted two chamber
MBE system. The sp-d exchange interaction of the anti-
ferromagnetically coupled magnetic Mn ions incorporated into
the quantum well leads to a giant g-factor of up to 100, and
hence a large Zeeman-splitting in external magnetic fields.
Scattering phenomena cause the electrons to relax into the
spin-down states and therefore create a spin-polarized electron
current injected into the AlGaAs/GaAs LED – analysis of the
emitted light depicts a spin-polarization of up to 70%.
More work is underway to examine the possible use of RTSs
as an electrically tunable spin filter device.