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Tunneling magnetoresistance of Co clusters in MgF2

Applied Physics Letters (2002) 81(3) 514-516
DOI: 10.1063/1.1494467
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Abstract

Samples of Co clusters embedded in a MgF2 matrix have been prepared by the codeposition of well-defined Co clusters (mean diameter L≃4.5nm) and MgF2 molecules onto a cold substrate. This system shows a temperature-dependent tunneling magnetoresistance (TMR) which has a value of 34.7(2)% at 2.5 K, the largest TMR value reported for a granular Co system. This large TMR value either is due to an antiferromagnetic coupling of those Co clusters between which the tunneling occurs or is caused by an enhanced spin-polarization of the tunneling electrons. The latter may be caused by a cluster-surface/matrix interaction leading to dominated d-electron tunneling due to Co(3d)-F(2p) hybridization. © 2002 American Institute of Physics.

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CITATION STYLE

APA

Hackenbroich, B., Zare-Kolsaraki, H., & Micklitz, H. (2002). Tunneling magnetoresistance of Co clusters in MgF2. Applied Physics Letters, 81(3), 514–516. https://doi.org/10.1063/1.1494467

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