Unidirectional multipulse helicity-independent all-optical switching in [Ni/Pt] based synthetic ferrimagnets

Unidirectional multipulse helicity-independent all-optical switching in [Ni/Pt] based synthetic ferrimagnets

Nickel-platinum-based synthetic ferrimagnets (SFi's) are highly tunable and rare-earth-free materials that allow ultrafast all optical control of magnetism to be explored. This study considers a SFi composed of a ferromagnetic [Ni/Pt] multilayer and a ferromagnetic Co layer, separated by an Ir...

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Veröffentlicht in:Physical review. B 2024-04, Vol.109 (13), Article 134417
Hauptverfasser: Sait, Connor R. J., Dąbrowski, Maciej, Scott, Jade N., Hendren, William R., Newman, David G., N'Diaye, Alpha T., Klewe, Christoph, Shafer, Padraic, van der Laan, Gerrit, Keatley, Paul S., Bowman, Robert M., Hicken, Robert J.
Format: Artikel
Sprache:eng
Schlagworte:
CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY
ferrimagnets
light-induced magnetic effects
magnetic multilayers
magnetization switching
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Zusammenfassung:Nickel-platinum-based synthetic ferrimagnets (SFi's) are highly tunable and rare-earth-free materials that allow ultrafast all optical control of magnetism to be explored. This study considers a SFi composed of a ferromagnetic [Ni/Pt] multilayer and a ferromagnetic Co layer, separated by an Ir layer that mediates an antiferromagnetic coupling. Helicity-independent all optical switching (HI-AOS) between two antiparallel magnetization states is observed. AOS may be realized at increased temperature through reduction of the thickness of the Pt layers. Switching is unidirectional and has a strong dependence on the applied magnetic field history, which suggests the possible presence of a nanoscale magnetic texture that may be important in controlling AOS in SFi systems.
ISSN:2469-9950
2469-9969
DOI:10.1103/PhysRevB.109.134417