2015
DOI: 10.1063/1.4922726
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Room temperature skyrmion ground state stabilized through interlayer exchange coupling

Abstract: Possible magnetic skyrmion device applications motivate the search for structures that extend the stability of skyrmion spin textures to ambient temperature. Here, we demonstrate an experimental approach to stabilize a room temperature skyrmion ground state in chiral magnetic films via exchange coupling across non-magnetic spacer layers. Using spin polarized low-energy electron microscopy to measure all three Cartesian components of the magnetization vector, we image the spin textures in Fe/Ni films. We show h… Show more

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Cited by 225 publications
(211 citation statements)
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“…These include the B20 compounds [5][6][7] and β-Mn-type CoZnMn alloys [8]. In ultra-thin magnetic layers [9,10] and multilayers [11,12] where inversion symmetry is broken at interfaces, Néel-type skyrmions can be stabilized. The formation of Néel-type skyrmions in bulk crystals with polar C nv symmetry was first predicted by Bogdanov and Yablonskii [13] and was recently observed in VOSe 2 O 5 [14], GaV 4 S 8 [15,16], and GaV 4 Se 8 [17].…”
Section: Introductionmentioning
confidence: 99%
“…These include the B20 compounds [5][6][7] and β-Mn-type CoZnMn alloys [8]. In ultra-thin magnetic layers [9,10] and multilayers [11,12] where inversion symmetry is broken at interfaces, Néel-type skyrmions can be stabilized. The formation of Néel-type skyrmions in bulk crystals with polar C nv symmetry was first predicted by Bogdanov and Yablonskii [13] and was recently observed in VOSe 2 O 5 [14], GaV 4 S 8 [15,16], and GaV 4 Se 8 [17].…”
Section: Introductionmentioning
confidence: 99%
“…The role of real-space topology has continually increased since the experimental discovery of magnetic skyrmions [19][20][21][22][23][24][25][26][27][28][29], which are topologically nontrivial spin textures [30] in non-centro-symmetric ferromagnetic structures. Skyrmions are in pole position in the racetrack memory search, thanks to prominent features that make them the ultimate bit of information [31]: in contrast with magnetic domain walls, skyrmions are topological defects, localized in space, and present a decent robustness against pinning by magnetic defects, enabling current-driven motion at low current density.…”
Section: Introductionmentioning
confidence: 99%
“…Recently, Chen et al [20] demonstrates an experimental approach to stabilize a room temperature skyrmion ground state in chiral magnetic films via interlayer exchange coupling (IEC). Indeed, Shawn et al [21] have reported on the direct imaging of chiral spin structures including skyrmions in an exchange coupled thick ferromagnetic Co/Pt multilayer at room temperature with Lorentz transmission electron microscopy.…”
Section: I-introductionmentioning
confidence: 99%