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MA: Fachverband Magnetismus
MA 36: Spincaloric Transport II (jointly with TT)
MA 36.9: Vortrag
Donnerstag, 3. April 2014, 11:45–12:00, HSZ 04
Thermally induced spin accumulation at Al/Co2TiSi and Al/Co2TiGe contacts — •Voicu Popescu, Benjamin Geisler, and Peter Kratzer — Faculty of Physics, University Duisburg-Essen, Duisburg, Germany
Spin injection from a ferromagnet in a semiconductor subtrate can be accomplished either by applying an external voltage or a temperature gradient. In the latter case, one exploits the Seebeck effect, with the temperature gradient across the contact directly resulting in a difference in chemical potentials in the two spin channels due to the spin-dependence of the Seebeck coefficient.
The magnetic Heusler alloys Co2TiSi or Co2TiGe exhibit half-metallic ferromagnetism in their ideal L21 crystal structure, with a potentially high degree of spin polarization of the injected current. As such, they recommend themselves for integrated spin injectors in combination with the closely lattice-matched Al contact layer.
We investigate the possibility of employing Al/Co2TiX/Al (X=Si,Ge) trilayers as thermally driven spin injectors by means of first-principles calculations of the electronic structure and of the thermoelectric transport properties. Our results show that the spin-dependent Seebeck effect is sensitive to the atomic structure of the Heusler/Al interface. In particular, for a thin Co2TiSi or Co2TiGe layer terminated by a TiSi or TiGe atomic plane, the thermal spin accumulation is found to be of the same order of magnitude as the conventional, effective Seebeck coefficent.