Deformation of the moving magnetic skyrmion lattice in MnSi under electric current flow

被引:0
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作者
D. Okuyama
M. Bleuel
J. S. White
Q. Ye
J. Krzywon
G. Nagy
Z. Q. Im
I. Živković
M. Bartkowiak
H. M. Rønnow
S. Hoshino
J. Iwasaki
N. Nagaosa
A. Kikkawa
Y. Taguchi
Y. Tokura
D. Higashi
J. D. Reim
Y. Nambu
T. J. Sato
机构
[1] Tohoku University,Institute of Multidisciplinary Research for Advanced Materials (IMRAM)
[2] National Institute of Standards and Technology,NIST Center for Neutron Research
[3] University of Maryland,Department of Materials Science and Engineering
[4] Institute of Physics,Laboratory for Quantum Magnetism
[5] École Polytechnique Fédérale de Lausanne (EPFL),Laboratory for Neutron Scattering and Imaging (LNS)
[6] Paul Scherrer Institut (PSI),Laboratory for Scientific Developments and Novel Materials (LDM)
[7] Paul Scherrer Institut (PSI),Department of Applied Physics
[8] RIKEN Center for Emergent Matter Science (CEMS),Institute for Materials Research (IMR)
[9] University of Tokyo,undefined
[10] Tohoku University,undefined
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Communications Physics | / 2卷
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摘要
Topological defects are found ubiquitously in various kinds of matter, such as vortices in type-II superconductors, and magnetic skyrmions in chiral ferromagnets. While knowledge on the static behavior of magnetic skyrmions is accumulating steadily, their dynamics under forced flow is still a widely open issue. Here, we report the deformation of the moving magnetic skyrmion lattice in MnSi under electric current flow observed using small-angle neutron scattering. A spatially inhomogeneous rotation of the skyrmion lattice, with an inverse rotation sense for opposite sample edges, is observed for current densities greater than a threshold value jt ~ 1 MA m−2 (106 A m−2). Our result show that skyrmion lattices under current flow experience significant friction near the sample edges due to pinning, this being a critical effect that must be considered for anticipated skyrmion-based applications at the nanoscale.
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