Optical creation and annihilation of skyrmion patches in a chiral magnet

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autorschaft

  • J. Kalin
  • S. Sievers
  • H.W. Schumacher
  • R. Abram
  • H. Füser
  • M. Bieler
  • D. Kalin
  • A. Bauer
  • C. Pfleiderer

Externe Organisationen

  • Physikalisch-Technische Bundesanstalt (PTB)
  • ESERA GmbH
  • Technische Universität München (TUM)
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Aufsatznummer034065
FachzeitschriftPhysical review applied
Jahrgang21
Ausgabenummer3
PublikationsstatusVeröffentlicht - 29 März 2024
Extern publiziertJa

Abstract

A key challenge for the realization of future skyrmion devices comprises the controlled creation, annihilation, and detection of these topologically nontrivial magnetic textures. In this study, we report an all-optical approach for writing, deleting, and reading skyrmions in the chiral magnet Fe0.75Co0.25Si based on thermal quenching. Using focused femtosecond laser pulses, patches of a thermally metastable skyrmion lattice state are created and annihilated locally, demonstrating unprecedented control of skyrmions in chiral magnets. The skyrmion state is read out by analyzing the microwave spin excitations in time-resolved magneto-optical Kerr effect measurements. Extracting the magnetic field and laser-fluence dependence, we find well-separated magnetic field regimes and different laser-fluence thresholds for the laser-induced creation and annihilation of skyrmions. The all-optical skyrmion control, as established in this study for a model system, represents a promising and energy-efficient approach for the realization of skyrmions as magnetic bits in future storage devices, reminiscent of magneto-optical storage devices in the past.

ASJC Scopus Sachgebiete

Zitieren

Optical creation and annihilation of skyrmion patches in a chiral magnet. / Kalin, J.; Sievers, S.; Schumacher, H.W. et al.
in: Physical review applied, Jahrgang 21, Nr. 3, 034065, 29.03.2024.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Kalin, J, Sievers, S, Schumacher, HW, Abram, R, Füser, H, Bieler, M, Kalin, D, Bauer, A & Pfleiderer, C 2024, 'Optical creation and annihilation of skyrmion patches in a chiral magnet', Physical review applied, Jg. 21, Nr. 3, 034065. https://doi.org/10.1103/PhysRevApplied.21.034065
Kalin, J., Sievers, S., Schumacher, H. W., Abram, R., Füser, H., Bieler, M., Kalin, D., Bauer, A., & Pfleiderer, C. (2024). Optical creation and annihilation of skyrmion patches in a chiral magnet. Physical review applied, 21(3), Artikel 034065. https://doi.org/10.1103/PhysRevApplied.21.034065
Kalin J, Sievers S, Schumacher HW, Abram R, Füser H, Bieler M et al. Optical creation and annihilation of skyrmion patches in a chiral magnet. Physical review applied. 2024 Mär 29;21(3):034065. doi: 10.1103/PhysRevApplied.21.034065
Kalin, J. ; Sievers, S. ; Schumacher, H.W. et al. / Optical creation and annihilation of skyrmion patches in a chiral magnet. in: Physical review applied. 2024 ; Jahrgang 21, Nr. 3.
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title = "Optical creation and annihilation of skyrmion patches in a chiral magnet",
abstract = "A key challenge for the realization of future skyrmion devices comprises the controlled creation, annihilation, and detection of these topologically nontrivial magnetic textures. In this study, we report an all-optical approach for writing, deleting, and reading skyrmions in the chiral magnet Fe0.75Co0.25Si based on thermal quenching. Using focused femtosecond laser pulses, patches of a thermally metastable skyrmion lattice state are created and annihilated locally, demonstrating unprecedented control of skyrmions in chiral magnets. The skyrmion state is read out by analyzing the microwave spin excitations in time-resolved magneto-optical Kerr effect measurements. Extracting the magnetic field and laser-fluence dependence, we find well-separated magnetic field regimes and different laser-fluence thresholds for the laser-induced creation and annihilation of skyrmions. The all-optical skyrmion control, as established in this study for a model system, represents a promising and energy-efficient approach for the realization of skyrmions as magnetic bits in future storage devices, reminiscent of magneto-optical storage devices in the past.",
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AU - Kalin, J.

AU - Sievers, S.

AU - Schumacher, H.W.

AU - Abram, R.

AU - Füser, H.

AU - Bieler, M.

AU - Kalin, D.

AU - Bauer, A.

AU - Pfleiderer, C.

N1 - Publisher Copyright: © 2024 American Physical Society.

PY - 2024/3/29

Y1 - 2024/3/29

N2 - A key challenge for the realization of future skyrmion devices comprises the controlled creation, annihilation, and detection of these topologically nontrivial magnetic textures. In this study, we report an all-optical approach for writing, deleting, and reading skyrmions in the chiral magnet Fe0.75Co0.25Si based on thermal quenching. Using focused femtosecond laser pulses, patches of a thermally metastable skyrmion lattice state are created and annihilated locally, demonstrating unprecedented control of skyrmions in chiral magnets. The skyrmion state is read out by analyzing the microwave spin excitations in time-resolved magneto-optical Kerr effect measurements. Extracting the magnetic field and laser-fluence dependence, we find well-separated magnetic field regimes and different laser-fluence thresholds for the laser-induced creation and annihilation of skyrmions. The all-optical skyrmion control, as established in this study for a model system, represents a promising and energy-efficient approach for the realization of skyrmions as magnetic bits in future storage devices, reminiscent of magneto-optical storage devices in the past.

AB - A key challenge for the realization of future skyrmion devices comprises the controlled creation, annihilation, and detection of these topologically nontrivial magnetic textures. In this study, we report an all-optical approach for writing, deleting, and reading skyrmions in the chiral magnet Fe0.75Co0.25Si based on thermal quenching. Using focused femtosecond laser pulses, patches of a thermally metastable skyrmion lattice state are created and annihilated locally, demonstrating unprecedented control of skyrmions in chiral magnets. The skyrmion state is read out by analyzing the microwave spin excitations in time-resolved magneto-optical Kerr effect measurements. Extracting the magnetic field and laser-fluence dependence, we find well-separated magnetic field regimes and different laser-fluence thresholds for the laser-induced creation and annihilation of skyrmions. The all-optical skyrmion control, as established in this study for a model system, represents a promising and energy-efficient approach for the realization of skyrmions as magnetic bits in future storage devices, reminiscent of magneto-optical storage devices in the past.

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