Giant Magnetic Anisotropy of Single Cobalt Atoms and Nanoparticles

Abstract

The isotropic magnetic moment of a free atom is shown to develop giant magnetic anisotropy energy due to symmetry reduction at an atomically ordered surface. Single cobalt atoms deposited onto platinum (111) are found to have a magnetic anisotropy energy of 9 millielectron volts per atom arising from the combination of unquenched orbital moments (1.1 Bohr magnetons) and strong spin-orbit coupling induced by the platinum substrate. By assembling cobalt nanoparticles containing up to 40 atoms, the magnetic anisotropy energy is further shown to be dependent on single-atom coordination changes. These results confirm theoretical predictions and are of fundamental value to understanding how magnetic anisotropy develops in finite-sized magnetic particles.

References

Page 1

	Year	Citations
Monodisperse FePt Nanoparticles and Ferromagnetic FePt Nanocrystal Superlattices Shouheng Sun, C. B. Murray, D. Weller, Science Materials ScienceMagnetismNanoparticlesChemical EngineeringEngineering	2000	6.1K
X-ray circular dichroism as a probe of orbital magnetization B. T. Thole, Paolo Carra, F. Sette, Physical Review Letters X-ray CrystallographyX-ray SpectroscopyEngineeringMagnetic ResonanceMagnetic Materials	1992	2.7K
<i>The Kondo Problem of Heavy Fermions</i> A. C. Hewson, Piers Coleman Physics Today Quantum LiquidQuantum ScienceMajorana FermionEngineeringPhysics	1994	2.3K
X-ray circular dichroism and local magnetic fields Paolo Carra, B. T. Thole, M. Altarelli, Physical Review Letters X-ray SpectroscopyEngineeringMagnetic ResonanceMagnetismPhysics	1993	2.3K
Experimental Confirmation of the X-Ray Magnetic Circular Dichroism Sum Rules for Iron and Cobalt C. T. Chen, Y. U. Idzerda, H.‐J. Lin, Physical Review Letters Magnetic PropertiesX-ray SpectroscopyEngineeringMagnetic ResonanceChemistry	1995	1.8K
Tight-binding approach to the orbital magnetic moment and magnetocrystalline anisotropy of transition-metal monolayers P. Bruno Physical review. B, Condensed matter EngineeringMagnetic ResonanceOrbital MomentMagnetoresistanceMagnetism	1989	1.3K
Thermal effect limits in ultrahigh-density magnetic recording D. Weller, A. Moser IEEE Transactions on Magnetics Non-volatile MemoryEngineeringMagnetic ResonanceSpontaneous Magnetization ReversalMagnetism	1999	1.2K
Magnetism from the Atom to the Bulk in Iron, Cobalt, and Nickel Clusters Isabelle M. L. Billas, A. Châtelain, Walt A. de Heer Science EngineeringMagnetic ResonanceSmall IronMagnetismCluster Size	1994	1K
Ferromagnetism in one-dimensional monatomic metal chains Pietro Gambardella, A. Dallmeyer, Kalobaran Maiti, Nature MagnetismFerromagnetismSpintronicsEngineeringPhysics	2002	847
Exploring the microscopic origin of magnetic anisotropies with X-ray magnetic circular dichroism (XMCD) spectroscopy J. Stöhr Journal of Magnetism and Magnetic Materials MagnetismX-ray SpectroscopyEngineeringPhysicsMicroscopic Origin	1999	566

Page 1