From epitaxial growth of ferrite thin films to spin-polarized tunnelling

Jean-Baptiste Moussy 1
1 LNO - Laboratoire Nano-Magnétisme et Oxydes
SPEC - UMR3680 - Service de physique de l'état condensé, IRAMIS - Institut Rayonnement Matière de Saclay
Abstract : This paper presents a review of the research which is focused on ferrite thin films for spintronics. First, I will describe the potential of ferrite layers for the generation of spin-polarized currents. In the second step, the structural and chemical properties of epitaxial thin films and ferrite-based tunnel junctions will be presented. Particular attention will be given to ferrite systems grown by oxygen-assisted molecular beam epitaxy. The analysis of the structure and chemistry close to the interfaces, a key-point for understanding the spin-polarized tunnelling measurements, will be detailed. In the third part, the magnetic and magneto-transport properties of magnetite (Fe3O4) thin films as a function of structural defects such as the antiphase boundaries will be explained. The spin-polarization measurements (spin-resolved photoemission, tunnel magnetoresistance) on this oxide predicted to be half-metallic will be discussed. Fourth, the potential of magnetic tunnel barriers, such as CoFe2O4, NiFe2O4 or MnFe2O4, whose insulating behaviour and the high Curie temperatures make it exciting candidates for spin filtering at room temperature will be described. Spin-polarized tunnelling experiments, involving either Meservey–Tedrow or tunnel magnetoresistance measurements, will reveal significant spin-polarizations of the tunnelling current at low temperatures but also at room temperatures. Finally, I will mention a few perspectives with ferrite-based heterostructures.
Type de document :
Article dans une revue
Journal of Physics D: Applied Physics, IOP Publishing, 2013, 46 (14), 〈10.1088/0022-3727/46/14/143001〉
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Soumis le : jeudi 2 mars 2017 - 10:43:23
Dernière modification le : vendredi 16 mars 2018 - 01:14:10

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Jean-Baptiste Moussy. From epitaxial growth of ferrite thin films to spin-polarized tunnelling. Journal of Physics D: Applied Physics, IOP Publishing, 2013, 46 (14), 〈10.1088/0022-3727/46/14/143001〉. 〈cea-01481046〉

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