Long-range crystalline nature of the Skyrmion lattice in MnSi

T. Adams; S. Mühlbauer; C. Pfleiderer; F. Jonietz; A. Bauer; A. Neubauer; R. Georgii; P. Böni; U. Keiderling; K. Everschor; M. Garst; A. Rosch

doi:10.1103/PhysRevLett.107.217206

Long-range crystalline nature of the Skyrmion lattice in MnSi

T. Adams, S. Mühlbauer, C. Pfleiderer, F. Jonietz, A. Bauer, A. Neubauer, R. Georgii, P. Böni, U. Keiderling, K. Everschor, M. Garst, A. Rosch

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127 Scopus citations

Abstract

We report small angle neutron scattering of the Skyrmion lattice in MnSi using an experimental setup that minimizes the effects of demagnetizing fields and double scattering. Under these conditions, the Skyrmion lattice displays resolution-limited Gaussian rocking peaks that correspond to a magnetic correlation length in excess of several hundred micrometers. This is consistent with exceptionally well-defined long-range order. We further establish the existence of higher-order scattering, discriminating parasitic double scattering with Renninger scans. The field and temperature dependence of the higher-order scattering arises from an interference effect. It is characteristic for the long-range crystalline nature of the Skyrmion lattice as shown by simple mean-field calculations.

Original language	English
Article number	217206
Journal	Physical Review Letters
Volume	107
Issue number	21
DOIs	https://doi.org/10.1103/PhysRevLett.107.217206
State	Published - 18 Nov 2011

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10.1103/PhysRevLett.107.217206

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abstract = "We report small angle neutron scattering of the Skyrmion lattice in MnSi using an experimental setup that minimizes the effects of demagnetizing fields and double scattering. Under these conditions, the Skyrmion lattice displays resolution-limited Gaussian rocking peaks that correspond to a magnetic correlation length in excess of several hundred micrometers. This is consistent with exceptionally well-defined long-range order. We further establish the existence of higher-order scattering, discriminating parasitic double scattering with Renninger scans. The field and temperature dependence of the higher-order scattering arises from an interference effect. It is characteristic for the long-range crystalline nature of the Skyrmion lattice as shown by simple mean-field calculations.",

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T1 - Long-range crystalline nature of the Skyrmion lattice in MnSi

AU - Adams, T.

AU - Mühlbauer, S.

AU - Pfleiderer, C.

AU - Jonietz, F.

AU - Bauer, A.

AU - Neubauer, A.

AU - Georgii, R.

AU - Böni, P.

AU - Keiderling, U.

AU - Everschor, K.

AU - Garst, M.

AU - Rosch, A.

PY - 2011/11/18

Y1 - 2011/11/18

N2 - We report small angle neutron scattering of the Skyrmion lattice in MnSi using an experimental setup that minimizes the effects of demagnetizing fields and double scattering. Under these conditions, the Skyrmion lattice displays resolution-limited Gaussian rocking peaks that correspond to a magnetic correlation length in excess of several hundred micrometers. This is consistent with exceptionally well-defined long-range order. We further establish the existence of higher-order scattering, discriminating parasitic double scattering with Renninger scans. The field and temperature dependence of the higher-order scattering arises from an interference effect. It is characteristic for the long-range crystalline nature of the Skyrmion lattice as shown by simple mean-field calculations.

AB - We report small angle neutron scattering of the Skyrmion lattice in MnSi using an experimental setup that minimizes the effects of demagnetizing fields and double scattering. Under these conditions, the Skyrmion lattice displays resolution-limited Gaussian rocking peaks that correspond to a magnetic correlation length in excess of several hundred micrometers. This is consistent with exceptionally well-defined long-range order. We further establish the existence of higher-order scattering, discriminating parasitic double scattering with Renninger scans. The field and temperature dependence of the higher-order scattering arises from an interference effect. It is characteristic for the long-range crystalline nature of the Skyrmion lattice as shown by simple mean-field calculations.

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Long-range crystalline nature of the Skyrmion lattice in MnSi

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