Unwinding of a Skyrmion Lattice by Magnetic Monopoles

Unwinding of a Skyrmion Lattice by Magnetic Monopoles

Skyrmion crystals are regular arrangements of magnetic whirls that exist in a wide range of chiral magnets. Because of their topology, they cannot be created or destroyed by smooth rearrangements of the direction of the local magnetization. Using magnetic force microscopy, we tracked the destruction...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2013-05, Vol.340 (6136), p.1076-1080
Hauptverfasser: Milde, P., Köhler, D., Seidel, J., Eng, L. M., Bauer, A., Chacon, A., Kindervater, J., Mühlbauer, S., Pfleiderer, C., Buhrandt, S., Schütte, C., Rosch, A.
Format: Artikel
Sprache:eng
Schlagworte:
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Crystal lattices
Crystals
Destruction
Exact sciences and technology
General theory and models of magnetic ordering
Imaging
Lattice theory
Lattices
Magnetic fields
Magnetic flux
Magnetic monopoles
Magnetic properties and materials
Magnetic structure
Magnetism
Magnetization
Magnets
Mathematical surfaces
Merging
Microscopy
Monopoles
Physics
Spin arrangements in magnetically ordered materials (including neutron and spin-polarized electron studies, synchrotron-source x-ray scattering, etc.)
Topology
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Beschreibung
Zusammenfassung:Skyrmion crystals are regular arrangements of magnetic whirls that exist in a wide range of chiral magnets. Because of their topology, they cannot be created or destroyed by smooth rearrangements of the direction of the local magnetization. Using magnetic force microscopy, we tracked the destruction of the skyrmion lattice on the surface of a bulk crystal of Fe₁₋ x Co x Si (x=0.5). Our study revealed that skyrmions vanish by a coalescence, forming elongated structures. Numerical simulations showed that changes of topology are controlled by singular magnetic point defects. They can be viewed as quantized magnetic monopoles and antimonopoles, which provide sources and sinks of one flux quantum of emergent magnetic flux, respectively.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.1234657