Origin and temperature dependence of DMI in high-PMA FePd studied by ¿-GISANS
Néel-type magnetic chiralities in thin FM/HM multilayer systems are shown to be controlled by the spin-orbit coupling parameter and have been proposed for applications in spintronic devices. However, Bloch-type chiral preferences have rarely been observed, but seem to play an important role in thicker multilayer systems. We propose an in-depth study of Bloch-type magnetic chiral domain walls in the FM/HM multilayer system FePd/Pd, using pi-GISANS with polarization analysis, (i) in dependence of the polarization direction of the neutron beam, and (ii) in dependence of temperature which impacts on the domain wall width.
The data is currently only available to download if you are a member of the proposal team.
The recommended format for citing this dataset in a research publication is in the following format:
Annika Stellhorn; BACKS Alexander; BEDNARSKI-MEINKE Connie; BLACKBURN Elizabeth; DE OLIVEIRA LIMA Vitor Alexandre; HAGMAN Joel; Alexander T Holmes; KENTZINGER Emmanuel; LEE Wai Tung and Alexei Vorobiev. (2023). Origin and temperature dependence of DMI in high-PMA FePd studied by ¿-GISANS. Institut Laue-Langevin (ILL) doi:10.5291/ILL-DATA.5-51-595
This data is not yet public
This data is not yet public
ILL has partnered with DataCite as the registration agency
for data persistent identifiers.