The authors study the transport properties of magnetic tunnel junctions (MTJs) with underoxidized 9ÅAlOx barriers suitable for magnetoresistive sensors in high-density storage devices. Temperature dependent measurements revealed different dominant transport mechanisms in different junctions: tunnel, metallic, or both, depending on the MTJ-magnetic state. This denotes a competition between two conductance channels (tunnel through oxidized AlOx and metallic through unoxidized Al nanoconstrictions), so that the dominance of one over the other is the outcome of small structural and composition variations in the barrier. Furthermore, transport through the Al nanobridges is spin dependent, caused by ballistic and/or diffusive magnetoresistance through nonmagnetic metallic paths.

Topics
Electrical resistivity, Electronic transport, Magnetic ordering, Ballistic transport, Transport properties, Spin valves, Tunnel junctions, Thin film deposition, Transmission electron microscopy, Nanocontacts
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© 2007 American Institute of Physics.
2007
American Institute of Physics
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