Strong bulk spin-orbit torques quantified in the van der Waals ferromagnet Fe3GeTe2

Martin, F; Lee, K; Schmitt, M; Liedtke, A; Shahee, A; Simensen, Haakon Thømt; Scholz, T; Saundersen, T; Go, Dongwook; Gradhand, M; Denneulin, Thibaud; Kovacs, A; Lotsch, Bettina V.; Brataas, Arne; Klaeui, Mathias

Martin, F; Lee, K; Schmitt, M; Liedtke, A; Shahee, A; Simensen, Haakon Thømt; Scholz, T; Saundersen, T; Go, Dongwook; Gradhand, M; Denneulin, Thibaud; Kovacs, A; Lotsch, Bettina V.; Brataas, Arne; Klaeui, Mathias

Peer reviewed, Journal article

Published version

Åpne

Strong+bulk+spin+orbit+torques+quantified+in+the+van+der+Waals+ferromagnet+Fe3GeTe2.pdf (1.662Mb)

Permanent lenke

https://hdl.handle.net/11250/3118362

Utgivelsesdato

2023

Sammendrag

The recent emergence of magnetic van der Waals materials allows for the investigation of current-induced magnetisation manipulation in two-dimensional materials. Uniquely, Fe3GeTe2 has a crystalline structure that allows for the presence of bulk spin–orbit torques (SOTs) that we quantify in a Fe3GeTe2 flake. From the symmetry of the measured torques, we identify current induced effective fields using harmonic analysis and find dominant bulk SOTs arising from the symmetry in the crystal structure. Our results show that Fe3GeTe2 can exhibit bulk SOTs in addition to the conventional interfacial SOTs enabling magnetisation manipulation even in thick flakes without the need for complex multilayer engineering.

Utgiver

Informa UK Limited

Tidsskrift

Materials Research Letters

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