Tunnel magnetoresistance in alumina, magnesia and composite tunnel barrier magnetic tunnel junctions |
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Authors: | Oliver SchebaumVolker Drewello,Alexander AugeGü nter Reiss,Markus Mü nzenbergHenning Schuhmann,Michael SeibtAndy Thomas |
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Affiliation: | a Thin Films and Physics of Nanostructures, Bielefeld University, Germany b I. and IV. Physikalisches Institut, Georg-August-Universität Göttingen, Germany |
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Abstract: | Using magnetron sputtering, we have prepared Co-Fe-B/tunnel barrier/Co-Fe-B magnetic tunnel junctions with tunnel barriers consisting of alumina, magnesia, and magnesia-alumina bilayer systems. The highest tunnel magnetoresistance ratios we found were 73% for alumina and 323% for magnesia-based tunnel junctions. Additionally, tunnel junctions with a unified layer stack were prepared for the three different barriers. In these systems, the tunnel magnetoresistance ratios at optimum annealing temperatures were found to be 65% for alumina, 173% for magnesia, and 78% for the composite tunnel barriers. The similar tunnel magnetoresistance ratios of the tunnel junctions containing alumina provide evidence that coherent tunneling is suppressed by the alumina layer in the composite tunnel barrier. |
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Keywords: | Magnetic tunnel junction Tunnel magnetoresistance MgO Alumina |
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