Magnetic nutation : Transient separation of magnetization from its angular momentum
| dc.contributor.author | De, Anulekha | |
| dc.contributor.author | Schlegel, Julius | |
| dc.contributor.author | Lentfert, Akira | |
| dc.contributor.author | Scheuer, Laura | |
| dc.contributor.author | Stadtmüller, Benjamin | |
| dc.contributor.author | Pirro, Philipp | |
| dc.contributor.author | von Freymann, Georg | |
| dc.contributor.author | Nowak, Ulrich | |
| dc.contributor.author | Aeschlimann, Martin | |
| dc.date.accessioned | 2025-01-30T09:23:47Z | |
| dc.date.available | 2025-01-30T09:23:47Z | |
| dc.date.issued | 2025-01-23 | |
| dc.description.abstract | For nearly 90 years, precession and relaxation processes have been thought to dominate the magnetization dynamics. Only recently has it been considered that, on short time scales, an inertia-driven magnetization dynamics should become relevant, leading to additional nutation of the magnetization vector. Here, we trigger magnetic nutation via a sudden excitation of a thin Ni80Fe20 (Permalloy) film with an ultrashort optical pulse, that leads to an abrupt tilting of the effective field acting on the magnetic moments, separating the dynamics of the magnetization from that of its angular momentum. We investigate the resulting magnetization dynamics in the inertial regime experimentally by the time-resolved magneto-optical Kerr effect. We find a characteristic oscillation in the Kerr signal in the range ∼0.1 THz superimposed on the precessional oscillations with GHz frequencies. By comparison with atomistic spin dynamics simulations, we demonstrate that this observation cannot be explained by the well-known Landau-Lifshitz-Gilbert equation of motion but can be attributed to inertial contributions leading to nutation of the magnetization vector around its angular momentum. Hence, an optical and nonresonant excitation of inertial magnetization dynamics can trigger and control different magnetic processes, ranging from demagnetization via nutation to precession in a single device. These findings will have profound implications for the understanding of ultrafast spin dynamics and magnetization switching. | |
| dc.description.version | published | deu |
| dc.identifier.doi | 10.1103/physrevb.111.014432 | |
| dc.identifier.ppn | 1916565999 | |
| dc.identifier.uri | https://kops.uni-konstanz.de/handle/123456789/72099 | |
| dc.language.iso | eng | |
| dc.subject.ddc | 530 | |
| dc.title | Magnetic nutation : Transient separation of magnetization from its angular momentum | eng |
| dc.type | JOURNAL_ARTICLE | |
| dspace.entity.type | Publication | |
| kops.citation.bibtex | @article{De2025-01-23Magne-72099,
title={Magnetic nutation : Transient separation of magnetization from its angular momentum},
year={2025},
doi={10.1103/physrevb.111.014432},
number={1},
volume={111},
issn={2469-9950},
journal={Physical Review B},
author={De, Anulekha and Schlegel, Julius and Lentfert, Akira and Scheuer, Laura and Stadtmüller, Benjamin and Pirro, Philipp and von Freymann, Georg and Nowak, Ulrich and Aeschlimann, Martin},
note={Article Number: 014432}
} | |
| kops.citation.iso690 | DE, Anulekha, Julius SCHLEGEL, Akira LENTFERT, Laura SCHEUER, Benjamin STADTMÜLLER, Philipp PIRRO, Georg VON FREYMANN, Ulrich NOWAK, Martin AESCHLIMANN, 2025. Magnetic nutation : Transient separation of magnetization from its angular momentum. In: Physical Review B. American Physical Society (APS). 2025, 111(1), 014432. ISSN 2469-9950. eISSN 2469-9969. Verfügbar unter: doi: 10.1103/physrevb.111.014432 | deu |
| kops.citation.iso690 | DE, Anulekha, Julius SCHLEGEL, Akira LENTFERT, Laura SCHEUER, Benjamin STADTMÜLLER, Philipp PIRRO, Georg VON FREYMANN, Ulrich NOWAK, Martin AESCHLIMANN, 2025. Magnetic nutation : Transient separation of magnetization from its angular momentum. In: Physical Review B. American Physical Society (APS). 2025, 111(1), 014432. ISSN 2469-9950. eISSN 2469-9969. Available under: doi: 10.1103/physrevb.111.014432 | eng |
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<dcterms:abstract>For nearly 90 years, precession and relaxation processes have been thought to dominate the magnetization dynamics. Only recently has it been considered that, on short time scales, an inertia-driven magnetization dynamics should become relevant, leading to additional nutation of the magnetization vector. Here, we trigger magnetic nutation via a sudden excitation of a thin Ni<sub>80</sub>Fe<sub>20</sub> (Permalloy) film with an ultrashort optical pulse, that leads to an abrupt tilting of the effective field acting on the magnetic moments, separating the dynamics of the magnetization from that of its angular momentum. We investigate the resulting magnetization dynamics in the inertial regime experimentally by the time-resolved magneto-optical Kerr effect. We find a characteristic oscillation in the Kerr signal in the range ∼0.1 THz superimposed on the precessional oscillations with GHz frequencies. By comparison with atomistic spin dynamics simulations, we demonstrate that this observation cannot be explained by the well-known Landau-Lifshitz-Gilbert equation of motion but can be attributed to inertial contributions leading to nutation of the magnetization vector around its angular momentum. Hence, an optical and nonresonant excitation of inertial magnetization dynamics can trigger and control different magnetic processes, ranging from demagnetization via nutation to precession in a single device. These findings will have profound implications for the understanding of ultrafast spin dynamics and magnetization switching.</dcterms:abstract>
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