Magnetism for Intelligent Devices (MIND)

Chirality-Induced asymmetric magnetic nucleation in Pt/Co/AlOx ultrathin microstructures.

Physical review letters 113:4 (2014) 047203

Authors:

S Pizzini, J Vogel, S Rohart, LD Buda-Prejbeanu, E Jué, O Boulle, IM Miron, CK Safeer, S Auffret, G Gaudin, A Thiaville

Abstract:

The nucleation of reversed magnetic domains in Pt/Co/AlO(x) microstructures with perpendicular anisotropy was studied experimentally in the presence of an in-plane magnetic field. For large enough in-plane field, nucleation was observed preferentially at an edge of the sample normal to this field. The position at which nucleation takes place was observed to depend in a chiral way on the initial magnetization and applied field directions. A quantitative explanation of these results is proposed, based on the existence of a sizable Dzyaloshinskii-Moriya interaction in this sample. Another consequence of this interaction is that the energy of domain walls can become negative for in-plane fields smaller than the effective anisotropy field.

Anisotropic bimodal distribution of blocking temperature with multiferroic BiFeO3 epitaxial thin films

Applied Physics Letters AIP Publishing 100:7 (2012) 072402

Authors:

CK Safeer, M Chamfrault, J Allibe, C Carretero, C Deranlot, E Jacquet, J-F Jacquot, M Bibes, A Barthélémy, B Dieny, H Béa, V Baltz

Gate-Tunable Spin Hall Effect in an All-Light-Element Heterostructure: Graphene with Copper Oxide

American Chemical Society (ACS)