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Bonding and Cohesive Properties of Cobalt/Alumina Magnetic Tunnel Junctions

Published online by Cambridge University Press:  10 February 2011

I.I. Oleinik ,
E.Yu. Tsymbal  and
D.G. Pettifor
I.I. Oleinik
Affiliation:
Department of Materials, University of Oxford, Parks Rd, Oxford OX1 3PH, UK
E.Yu. Tsymbal
Affiliation:
Department of Materials, University of Oxford, Parks Rd, Oxford OX1 3PH, UK
D.G. Pettifor
Affiliation:
Department of Materials, University of Oxford, Parks Rd, Oxford OX1 3PH, UK
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Abstract

Magnetic tunnel junctions (MTJs) are promising candidates for applications in spintronic devices such as magnetic random access memories, read heads and sensors. Previous studies have revealed the critical influence of the chemistry and structure of the ferromagnet metal/alumina interface on both sign and magnitude of the tunneling current in MTJs. We have performed a detailed first-principles study of the structure and bonding at the cobalt/alumina interface in order to understand the relationship between magnetic properties, local bonding environment and cohesion at the interface. Both Al- and 0- terminated interfaces were considered and full geometry optimization of the structure was done by selfconsistent spin-polarized calculations within density functional theory and the generalized gradient approximation. We found that the relaxed atomic structure of the 0-terminated interface is characterized by a rippling of the Co interfacial plane, the average Co-O bond length being 2.04 Å which is within 5% of that in bulk CoO and it is characterized by the covalent bonding between the 0 2p and Co 3d orbitals. The Al-terminated interface contains Co-Al bonds with an average bond length of 2.49 Å compared to 2.48 Å in bulk CoAl and it is characterized by metallic behaviour of the first aluminium layer. As a consequence of different character of bonding, the cohesion at the O-terminated interface is stronger as that at the Al-terminated interface, the work of separation being equal to 6.35 J/m2 and 3.64 J/m2 respectively.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 616: Symposium I – New Methods, Mechanisms & Models of Vapor Deposition , 2000 , 171
Copyright
Copyright © Materials Research Society 2000

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