Bistability in Atomic-Scale Antiferromagnets

Control of magnetism on the atomic scale is becoming essential as data storage devices are miniaturized. We show that antiferromagnetic nanostructures, composed of just a few Fe atoms on a surface, exhibit two magnetic states, the Néel states, that are stable for hours at low temperature. For the sm...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2012-01, Vol.335 (6065), p.196-199
Hauptverfasser: Loth, Sebastian, Baumann, Susanne, Lutz, Christopher P., Eigler, D. M., Heinrich, Andreas J.
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Sprache:eng
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Zusammenfassung:Control of magnetism on the atomic scale is becoming essential as data storage devices are miniaturized. We show that antiferromagnetic nanostructures, composed of just a few Fe atoms on a surface, exhibit two magnetic states, the Néel states, that are stable for hours at low temperature. For the smallest structures, we observed transitions between Néel states due to quantum tunneling of magnetization. We sensed the magnetic states of the designed structures using spin-polarized tunneling and switched between them electrically with nanosecond speed. Tailoring the properties of neighboring antiferromagnetic nanostructures enables a low-temperature demonstration of dense nonvolatile storage of information.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.1214131