We have performed a layer-resolved, microscopic study of interactions between domain walls in two magnetic layers separated by a non-magnetic one, using high-resolution x-ray photoemission electron microscopy. Domain walls in the hard magnetic Co layer of a Co/Al2O3/FeNi trilayer with in-plane uniaxial anisotropy strongly modify the local magnetization direction in the soft magnetic FeNi layer. The stray fields associated with the domain walls lead to an antiparallel coupling between the local Co and FeNi moments. For domain walls parallel to the easy magnetization axis, this interaction is limited to the domain wall region itself. For strongly charged ( head-on or tail-to-tail) walls, the antiparallel coupling dominates the interaction over radial distances up to several micrometres from the centre of the domain wall.
Layer-resolved imaging of domain wall interactions in magnetic tunnel junction-like trilayers
Heun S;
2007
Abstract
We have performed a layer-resolved, microscopic study of interactions between domain walls in two magnetic layers separated by a non-magnetic one, using high-resolution x-ray photoemission electron microscopy. Domain walls in the hard magnetic Co layer of a Co/Al2O3/FeNi trilayer with in-plane uniaxial anisotropy strongly modify the local magnetization direction in the soft magnetic FeNi layer. The stray fields associated with the domain walls lead to an antiparallel coupling between the local Co and FeNi moments. For domain walls parallel to the easy magnetization axis, this interaction is limited to the domain wall region itself. For strongly charged ( head-on or tail-to-tail) walls, the antiparallel coupling dominates the interaction over radial distances up to several micrometres from the centre of the domain wall.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
