Spintronic magnetic anisotropy
Authors:
- Maciej Łukasz Misiorny,
- Michael Hell,
- Maarten R. Wegewijs
Abstract
Superparamagnetism of magnetic adatoms and molecules-preferential alignment of their spins along an easy axis-is a useful effect for nanoscale applications as it prevents undesired spin reversal. The underlying magnetic anisotropy barrier-a quadrupolar energy splitting-originates from spin-orbit interaction and can nowadays be probed by electronic transport measurements. Here we predict that in a much broader class of systems, quantum dots with spins larger than 1/2, superparamagnetism can arise without spin-orbit interaction: by attaching them to ferromagnets, a quadrupolar spintronic exchange field is generated locally. It is observable by means of conductance measurements and leads to enhanced spin filtering even in a state with zero average spin. Analogously to the spintronic dipolar exchange field, giving rise to a local spin torque, the effect is susceptible to electric control and increases with tunnel coupling as well as with spin polarization. © 2013 Macmillan Publishers Limited.
- Record ID
- UAMc5d56f139a98470a863b84ab462858b7
- Author
- Journal series
- Nature Physics, ISSN 1745-2473
- Issue year
- 2013
- Vol
- 9
- Pages
- 801-805
- ASJC Classification
- DOI
- DOI:10.1038/nphys2766 Opening in a new tab
- Language
- (en) English
- Score (nominal)
- 45
- Score source
- journalList
- Score
- Publication indicators
- = 44; = 60; : 2013 = 5.667; : 2013 (2 years) = 20.603 - 2013 (5 years) =20.059
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- Uniform Resource Identifier
- https://researchportal.amu.edu.pl/info/article/UAMc5d56f139a98470a863b84ab462858b7/
- URN
urn:amu-prod:UAMc5d56f139a98470a863b84ab462858b7
* presented citation count is obtained through Internet information analysis and it is close to the number calculated by the Publish or PerishOpening in a new tab system.