Existence of Higher Degree Minimizers in the Magnetic Skyrmion Problem

Cyrill B. Muratov; Thilo Simon; Valeriy V. Slastikov

doi:10.1007/s00205-025-02131-x

Existence of Higher Degree Minimizers in the Magnetic Skyrmion Problem

Cyrill B. Muratov
, Thilo Simon
, Valeriy V. Slastikov

Center for Applied Mathematics and Statistics

Research output: Contribution to journal › Article › peer-review

Abstract

We demonstrate the existence of topologically nontrivial energy minimizing maps of a given positive degree from bounded domains in the plane to S2 in a variational model describing magnetizations in ultrathin ferromagnetic films with Dzyaloshinskii–Moriya interaction. Our strategy is to insert tiny truncated Belavin–Polyakov profiles in carefully chosen locations of lower degree objects such that the total energy increase lies strictly below the expected Dirichlet energy contribution, ruling out loss of degree in the limits of minimizing sequences. The argument requires that the domain be either sufficiently large or sufficiently slender to accommodate a prescribed degree. We also show that these higher degree minimizers concentrate on point-like skyrmionic configurations in a suitable parameter regime.

Original language	English (US)
Article number	61
Journal	Archive for Rational Mechanics and Analysis
Volume	249
Issue number	5
DOIs	https://doi.org/10.1007/s00205-025-02131-x
State	Published - Oct 2025

All Science Journal Classification (ASJC) codes

Analysis
Mathematics (miscellaneous)
Mechanical Engineering

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10.1007/s00205-025-02131-x

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abstract = "We demonstrate the existence of topologically nontrivial energy minimizing maps of a given positive degree from bounded domains in the plane to S2 in a variational model describing magnetizations in ultrathin ferromagnetic films with Dzyaloshinskii–Moriya interaction. Our strategy is to insert tiny truncated Belavin–Polyakov profiles in carefully chosen locations of lower degree objects such that the total energy increase lies strictly below the expected Dirichlet energy contribution, ruling out loss of degree in the limits of minimizing sequences. The argument requires that the domain be either sufficiently large or sufficiently slender to accommodate a prescribed degree. We also show that these higher degree minimizers concentrate on point-like skyrmionic configurations in a suitable parameter regime.",

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AU - Simon, Thilo

AU - Slastikov, Valeriy V.

N1 - Publisher Copyright: © The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature 2025.

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N2 - We demonstrate the existence of topologically nontrivial energy minimizing maps of a given positive degree from bounded domains in the plane to S2 in a variational model describing magnetizations in ultrathin ferromagnetic films with Dzyaloshinskii–Moriya interaction. Our strategy is to insert tiny truncated Belavin–Polyakov profiles in carefully chosen locations of lower degree objects such that the total energy increase lies strictly below the expected Dirichlet energy contribution, ruling out loss of degree in the limits of minimizing sequences. The argument requires that the domain be either sufficiently large or sufficiently slender to accommodate a prescribed degree. We also show that these higher degree minimizers concentrate on point-like skyrmionic configurations in a suitable parameter regime.

AB - We demonstrate the existence of topologically nontrivial energy minimizing maps of a given positive degree from bounded domains in the plane to S2 in a variational model describing magnetizations in ultrathin ferromagnetic films with Dzyaloshinskii–Moriya interaction. Our strategy is to insert tiny truncated Belavin–Polyakov profiles in carefully chosen locations of lower degree objects such that the total energy increase lies strictly below the expected Dirichlet energy contribution, ruling out loss of degree in the limits of minimizing sequences. The argument requires that the domain be either sufficiently large or sufficiently slender to accommodate a prescribed degree. We also show that these higher degree minimizers concentrate on point-like skyrmionic configurations in a suitable parameter regime.

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Existence of Higher Degree Minimizers in the Magnetic Skyrmion Problem

Abstract

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