Theory of magnetic field stabilized compact skyrmions in thin-film ferromagnets

Anne Bernand-Mantel; Anaïs Fondet; Sarah Barnova; Theresa M. Simon; Cyrill B. Muratov

doi:10.1103/PhysRevB.108.L161405

Theory of magnetic field stabilized compact skyrmions in thin-film ferromagnets

Anne Bernand-Mantel
, Anaïs Fondet
, Sarah Barnova
, Theresa M. Simon
, Cyrill B. Muratov

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

7 Scopus citations

Abstract

We present a micromagnetic theory of compact magnetic skyrmions under applied magnetic field that accounts for the full dipolar energy and the interfacial Dzyaloshinskii-Moryia interaction (DMI) in the thin-film regime. Asymptotic analysis is used to derive analytical formulas for the parametric dependence of the skyrmion size and rotation angle, as well as the energy barriers for collapse and bursting, two processes that lead to a finite skyrmion lifetime. We demonstrate the existence of a regime at low DMI, in which the skyrmion is stabilized by a combination of nonlocal dipolar interaction and a magnetic field applied parallel to its core, and discuss the conditions for an experimental realization of such field-stabilized skyrmions.

Original language	English (US)
Article number	L161405
Journal	Physical Review B
Volume	108
Issue number	16
DOIs	https://doi.org/10.1103/PhysRevB.108.L161405
State	Published - Oct 15 2023

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
Condensed Matter Physics

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10.1103/PhysRevB.108.L161405

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title = "Theory of magnetic field stabilized compact skyrmions in thin-film ferromagnets",

abstract = "We present a micromagnetic theory of compact magnetic skyrmions under applied magnetic field that accounts for the full dipolar energy and the interfacial Dzyaloshinskii-Moryia interaction (DMI) in the thin-film regime. Asymptotic analysis is used to derive analytical formulas for the parametric dependence of the skyrmion size and rotation angle, as well as the energy barriers for collapse and bursting, two processes that lead to a finite skyrmion lifetime. We demonstrate the existence of a regime at low DMI, in which the skyrmion is stabilized by a combination of nonlocal dipolar interaction and a magnetic field applied parallel to its core, and discuss the conditions for an experimental realization of such field-stabilized skyrmions.",

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T1 - Theory of magnetic field stabilized compact skyrmions in thin-film ferromagnets

AU - Bernand-Mantel, Anne

AU - Fondet, Anaïs

AU - Barnova, Sarah

AU - Simon, Theresa M.

AU - Muratov, Cyrill B.

PY - 2023/10/15

Y1 - 2023/10/15

N2 - We present a micromagnetic theory of compact magnetic skyrmions under applied magnetic field that accounts for the full dipolar energy and the interfacial Dzyaloshinskii-Moryia interaction (DMI) in the thin-film regime. Asymptotic analysis is used to derive analytical formulas for the parametric dependence of the skyrmion size and rotation angle, as well as the energy barriers for collapse and bursting, two processes that lead to a finite skyrmion lifetime. We demonstrate the existence of a regime at low DMI, in which the skyrmion is stabilized by a combination of nonlocal dipolar interaction and a magnetic field applied parallel to its core, and discuss the conditions for an experimental realization of such field-stabilized skyrmions.

AB - We present a micromagnetic theory of compact magnetic skyrmions under applied magnetic field that accounts for the full dipolar energy and the interfacial Dzyaloshinskii-Moryia interaction (DMI) in the thin-film regime. Asymptotic analysis is used to derive analytical formulas for the parametric dependence of the skyrmion size and rotation angle, as well as the energy barriers for collapse and bursting, two processes that lead to a finite skyrmion lifetime. We demonstrate the existence of a regime at low DMI, in which the skyrmion is stabilized by a combination of nonlocal dipolar interaction and a magnetic field applied parallel to its core, and discuss the conditions for an experimental realization of such field-stabilized skyrmions.

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DO - 10.1103/PhysRevB.108.L161405

M3 - Article

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JO - Physical Review B

JF - Physical Review B

IS - 16

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ER -

Theory of magnetic field stabilized compact skyrmions in thin-film ferromagnets

Abstract

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