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Triple helix versus skyrmion lattice in two-dimensional noncentrosymmetric magnets. / Timofeev, V. E.; Sorokin, A. O.; Aristov, D. N.

In: Physical Review B, Vol. 103, No. 9, 094402, 01.03.2021.

Research output: Contribution to journalArticlepeer-review

Harvard

Timofeev, VE, Sorokin, AO & Aristov, DN 2021, 'Triple helix versus skyrmion lattice in two-dimensional noncentrosymmetric magnets', Physical Review B, vol. 103, no. 9, 094402. https://doi.org/10.1103/PhysRevB.103.094402

APA

Timofeev, V. E., Sorokin, A. O., & Aristov, D. N. (2021). Triple helix versus skyrmion lattice in two-dimensional noncentrosymmetric magnets. Physical Review B, 103(9), [094402]. https://doi.org/10.1103/PhysRevB.103.094402

Vancouver

Timofeev VE, Sorokin AO, Aristov DN. Triple helix versus skyrmion lattice in two-dimensional noncentrosymmetric magnets. Physical Review B. 2021 Mar 1;103(9). 094402. https://doi.org/10.1103/PhysRevB.103.094402

Author

Timofeev, V. E. ; Sorokin, A. O. ; Aristov, D. N. / Triple helix versus skyrmion lattice in two-dimensional noncentrosymmetric magnets. In: Physical Review B. 2021 ; Vol. 103, No. 9.

BibTeX

@article{7861b390a3f94e0c80d07597749f4196,
title = "Triple helix versus skyrmion lattice in two-dimensional noncentrosymmetric magnets",
abstract = "It is commonly assumed that a lattice of skyrmions, emerging in two-dimensional noncentrosymmetric magnets in external magnetic fields, can be represented as a sum of three magnetic helices. To test this assumption, we compare two approaches to a description of a regular skyrmion structure. We construct (i) a lattice of Belavin-Polyakov-like skyrmions within the stereographic projection method and (ii) a deformed triple helix defined with the use of elliptic functions. The estimates for the energy density and magnetic profiles show that these two ansatzes are nearly identical at zero temperature for intermediate magnetic fields. However, at higher magnetic fields, near the transition to a topologically trivial uniform phase, the stereographic projection method is preferable, particularly for the description of a disordered skyrmion liquid phase. We suggest exploring the intensities of secondary Bragg peaks to obtain additional information about the magnetic profile of individual skyrmions. We estimate these intensities to be several percent of the main Bragg peak at high magnetic fields.",
author = "Timofeev, {V. E.} and Sorokin, {A. O.} and Aristov, {D. N.}",
note = "Publisher Copyright: {\textcopyright} 2021 American Physical Society.",
year = "2021",
month = mar,
day = "1",
doi = "10.1103/PhysRevB.103.094402",
language = "English",
volume = "103",
journal = "Physical Review B-Condensed Matter",
issn = "1098-0121",
publisher = "American Physical Society",
number = "9",

}

RIS

TY - JOUR

T1 - Triple helix versus skyrmion lattice in two-dimensional noncentrosymmetric magnets

AU - Timofeev, V. E.

AU - Sorokin, A. O.

AU - Aristov, D. N.

N1 - Publisher Copyright: © 2021 American Physical Society.

PY - 2021/3/1

Y1 - 2021/3/1

N2 - It is commonly assumed that a lattice of skyrmions, emerging in two-dimensional noncentrosymmetric magnets in external magnetic fields, can be represented as a sum of three magnetic helices. To test this assumption, we compare two approaches to a description of a regular skyrmion structure. We construct (i) a lattice of Belavin-Polyakov-like skyrmions within the stereographic projection method and (ii) a deformed triple helix defined with the use of elliptic functions. The estimates for the energy density and magnetic profiles show that these two ansatzes are nearly identical at zero temperature for intermediate magnetic fields. However, at higher magnetic fields, near the transition to a topologically trivial uniform phase, the stereographic projection method is preferable, particularly for the description of a disordered skyrmion liquid phase. We suggest exploring the intensities of secondary Bragg peaks to obtain additional information about the magnetic profile of individual skyrmions. We estimate these intensities to be several percent of the main Bragg peak at high magnetic fields.

AB - It is commonly assumed that a lattice of skyrmions, emerging in two-dimensional noncentrosymmetric magnets in external magnetic fields, can be represented as a sum of three magnetic helices. To test this assumption, we compare two approaches to a description of a regular skyrmion structure. We construct (i) a lattice of Belavin-Polyakov-like skyrmions within the stereographic projection method and (ii) a deformed triple helix defined with the use of elliptic functions. The estimates for the energy density and magnetic profiles show that these two ansatzes are nearly identical at zero temperature for intermediate magnetic fields. However, at higher magnetic fields, near the transition to a topologically trivial uniform phase, the stereographic projection method is preferable, particularly for the description of a disordered skyrmion liquid phase. We suggest exploring the intensities of secondary Bragg peaks to obtain additional information about the magnetic profile of individual skyrmions. We estimate these intensities to be several percent of the main Bragg peak at high magnetic fields.

UR - http://www.scopus.com/inward/record.url?scp=85102879902&partnerID=8YFLogxK

U2 - 10.1103/PhysRevB.103.094402

DO - 10.1103/PhysRevB.103.094402

M3 - Article

AN - SCOPUS:85102879902

VL - 103

JO - Physical Review B-Condensed Matter

JF - Physical Review B-Condensed Matter

SN - 1098-0121

IS - 9

M1 - 094402

ER -

ID: 85412648