2007
DOI: 10.1038/nature05802
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Chiral magnetic order at surfaces driven by inversion asymmetry

Abstract: Chirality is a fascinating phenomenon that can manifest itself in subtle ways, for example in biochemistry (in the observed single-handedness of biomolecules) and in particle physics (in the charge-parity violation of electroweak interactions). In condensed matter, magnetic materials can also display single-handed, or homochiral, spin structures. This may be caused by the Dzyaloshinskii-Moriya interaction, which arises from spin-orbit scattering of electrons in an inversion-asymmetric crystal field. This effec… Show more

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Cited by 945 publications
(921 citation statements)
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“…To interpret and explain the asymmetric process of VS formation, we took the DMI into consideration, because it inevitably arises from the spin-orbital coupling due to the broken inversion symmetry at surfaces/interfaces in magnetic thin layers 17,18 . The DMI has been discussed as the origin for spin spiral textures and has been theoretically predicted to affect the shape and size of magnetic vortices 20,21 .…”
Section: D Micromagnetic Modellingmentioning
confidence: 99%
See 3 more Smart Citations
“…To interpret and explain the asymmetric process of VS formation, we took the DMI into consideration, because it inevitably arises from the spin-orbital coupling due to the broken inversion symmetry at surfaces/interfaces in magnetic thin layers 17,18 . The DMI has been discussed as the origin for spin spiral textures and has been theoretically predicted to affect the shape and size of magnetic vortices 20,21 .…”
Section: D Micromagnetic Modellingmentioning
confidence: 99%
“…where D is the Dzyaloshinskii constant, which determines the magnitude of the DMI and its sign specifies the orientation of spin spiral state owing to the DMI 18,20 . For this simulation, we adapted a three-dimensional (3D) model where the DMI exists only on the disk surfaces (top, bottom and lateral) because the DMI is considered to be localized at the surface 18,[22][23][24] .…”
Section: D Micromagnetic Modellingmentioning
confidence: 99%
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“…The manipulation of exchange interactions opens another path to create new materials with a magnetic state that may be tunable by external magnetic or electric fields. 4 E.g., the occurrence of chiral spin spiral states at surfaces has been demonstrated, 5,6 their manipulation by electrical currents was suggested 5,7 and a way to grow films with multiple metastable magnetic states has been proposed. 8 The ability to create one-dimensional ͑1D͒ monoatomic magnetic chains of transition metals on surfaces by self-organization 9,10 or by manipulation with a scanning tunneling microscope 11 has recently opened new vistas to explore and manipulate artificial magnetic nanostructures even atom by atom.…”
Section: Introductionmentioning
confidence: 99%