Equilibrium Skyrmion Lattice Ground State in a Polar Easy-plane Magnet

Equilibrium Skyrmion Lattice Ground State in a Polar Easy-plane Magnet

Abstract The skyrmion lattice state (SkL), a crystal built of mesoscopic spin vortices, gains its stability via thermal fluctuations in all bulk skyrmion host materials known to date. Therefore, its existence is limited to a narrow temperature region below the paramagnetic state. This stability rang...

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Main Authors: S. Bordács, A. Butykai, B. G. Szigeti, J. S. White, R. Cubitt, A. O. Leonov, S. Widmann, D. Ehlers, H.-A. Krug von Nidda, V. Tsurkan, A. Loidl, I. Kézsmárki
Format: Article
Language:English
Published: Nature Publishing Group 2017-08-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-017-07996-x
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spelling doaj-e945815efe8f4a45a1ca1b8d3453a0b32020-12-08T01:08:06ZengNature Publishing GroupScientific Reports2045-23222017-08-017111110.1038/s41598-017-07996-xEquilibrium Skyrmion Lattice Ground State in a Polar Easy-plane MagnetS. Bordács0A. Butykai1B. G. Szigeti2J. S. White3R. Cubitt4A. O. Leonov5S. Widmann6D. Ehlers7H.-A. Krug von Nidda8V. Tsurkan9A. Loidl10I. Kézsmárki11Department of Physics, Budapest University of Technology and Economics and MTA-BME Lendület Magneto-optical Spectroscopy Research GroupDepartment of Physics, Budapest University of Technology and Economics and MTA-BME Lendület Magneto-optical Spectroscopy Research GroupDepartment of Physics, Budapest University of Technology and Economics and MTA-BME Lendület Magneto-optical Spectroscopy Research GroupLaboratory for Neutron Scattering and Imaging, Paul Scherrer InstitutInstitut Laue-LangevinCenter for Chiral Science, Hiroshima UniversityExperimental Physics V, Center for Electronic Correlations and Magnetism, University of AugsburgExperimental Physics V, Center for Electronic Correlations and Magnetism, University of AugsburgExperimental Physics V, Center for Electronic Correlations and Magnetism, University of AugsburgExperimental Physics V, Center for Electronic Correlations and Magnetism, University of AugsburgExperimental Physics V, Center for Electronic Correlations and Magnetism, University of AugsburgDepartment of Physics, Budapest University of Technology and Economics and MTA-BME Lendület Magneto-optical Spectroscopy Research GroupAbstract The skyrmion lattice state (SkL), a crystal built of mesoscopic spin vortices, gains its stability via thermal fluctuations in all bulk skyrmion host materials known to date. Therefore, its existence is limited to a narrow temperature region below the paramagnetic state. This stability range can drastically increase in systems with restricted geometries, such as thin films, interfaces and nanowires. Thermal quenching can also promote the SkL as a metastable state over extended temperature ranges. Here, we demonstrate more generally that a proper choice of material parameters alone guarantees the thermodynamic stability of the SkL over the full temperature range below the paramagnetic state down to zero kelvin. We found that GaV4Se8, a polar magnet with easy-plane anisotropy, hosts a robust Néel-type SkL even in its ground state. Our supporting theory confirms that polar magnets with weak uniaxial anisotropy are ideal candidates to realize SkLs with wide stability ranges.https://doi.org/10.1038/s41598-017-07996-x
collection DOAJ
language English
format Article
sources DOAJ
author S. Bordács
A. Butykai
B. G. Szigeti
J. S. White
R. Cubitt
A. O. Leonov
S. Widmann
D. Ehlers
H.-A. Krug von Nidda
V. Tsurkan
A. Loidl
I. Kézsmárki
spellingShingle S. Bordács
A. Butykai
B. G. Szigeti
J. S. White
R. Cubitt
A. O. Leonov
S. Widmann
D. Ehlers
H.-A. Krug von Nidda
V. Tsurkan
A. Loidl
I. Kézsmárki
Equilibrium Skyrmion Lattice Ground State in a Polar Easy-plane Magnet
Scientific Reports
author_facet S. Bordács
A. Butykai
B. G. Szigeti
J. S. White
R. Cubitt
A. O. Leonov
S. Widmann
D. Ehlers
H.-A. Krug von Nidda
V. Tsurkan
A. Loidl
I. Kézsmárki
author_sort S. Bordács
title Equilibrium Skyrmion Lattice Ground State in a Polar Easy-plane Magnet
title_short Equilibrium Skyrmion Lattice Ground State in a Polar Easy-plane Magnet
title_full Equilibrium Skyrmion Lattice Ground State in a Polar Easy-plane Magnet
title_fullStr Equilibrium Skyrmion Lattice Ground State in a Polar Easy-plane Magnet
title_full_unstemmed Equilibrium Skyrmion Lattice Ground State in a Polar Easy-plane Magnet
title_sort equilibrium skyrmion lattice ground state in a polar easy-plane magnet
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2017-08-01
description Abstract The skyrmion lattice state (SkL), a crystal built of mesoscopic spin vortices, gains its stability via thermal fluctuations in all bulk skyrmion host materials known to date. Therefore, its existence is limited to a narrow temperature region below the paramagnetic state. This stability range can drastically increase in systems with restricted geometries, such as thin films, interfaces and nanowires. Thermal quenching can also promote the SkL as a metastable state over extended temperature ranges. Here, we demonstrate more generally that a proper choice of material parameters alone guarantees the thermodynamic stability of the SkL over the full temperature range below the paramagnetic state down to zero kelvin. We found that GaV4Se8, a polar magnet with easy-plane anisotropy, hosts a robust Néel-type SkL even in its ground state. Our supporting theory confirms that polar magnets with weak uniaxial anisotropy are ideal candidates to realize SkLs with wide stability ranges.
url https://doi.org/10.1038/s41598-017-07996-x
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