Add to ORKGMagnetic exchange spring systems are multi-layers or composites of magnetically hard and soft materials that are exchange-coupled across their interfaces. In recent years, research into exchange spring systems has flourished, with potential for application in high-performance permanent magnets, GMR spin devices, magnetic MEMS technology, and in magnetic data storage. We investigate the magnetic properties of MBE grown superlattices with alternating layers of magnetically hard rare earth-iron (DyFe2, ErFe2) and soft yttriumiron (YFe2) compounds. They are ideal model systems to study exchange spring phenomena. We develop numerical models of the investigated systems and apply micromagnetic simulations. The simulation code OOMMF is extended and...
Epitaxial-grown DyFe2/YFe2 multilayer thin films form an ideal model system for the study of magneti...
Epitaxial-grown DyFe2/YFe2 multilayer thin films form an ideal model system for the study of magneti...
Magnetic exchange spring systems which consist of alternating thin hard and soft magnetic layers pro...
Magnetic exchange spring systems are multi-layers or composites of magnetically hard and soft materi...
Exchange springs are formed in multilayers of alternating hard and soft ferromagnetic materials whic...
The magnetization reversal processes of [10nm ErFe2/nYFe2/4nm DyFe2/nYFe2] multilayer films with a (...
Magnetic measurements of [110] [50 A DyFe2/200 A YFe2] reveal a rich switching behaviour: the format...
The magnetization reversal processes of [10 nm ErFe2 / n YFe2 / 4 nm DyFe2 / n YFe2] multilayer film...
Magnetic exchange spring systems have potential applications in (i) the next generation of permanent...
International audienceMonte Carlo simulations are used to perform an atomic scale modeling of the ma...
International audienceMonte Carlo simulations are used to perform an atomic scale modeling of the ma...
1D models of magnetic multilayers, with alternating hard and soft layers, are extended to 2D and 3D,...
Using a history-dependent method, it is possible to prepare magnetic superlattices, consisting of al...
We present some universal results for exchange springs in multilayer systems with alternating hard a...
The Stoner–Wohlfarth model has proved reasonably successful in describing the coercivities of antife...
Epitaxial-grown DyFe2/YFe2 multilayer thin films form an ideal model system for the study of magneti...
Epitaxial-grown DyFe2/YFe2 multilayer thin films form an ideal model system for the study of magneti...
Magnetic exchange spring systems which consist of alternating thin hard and soft magnetic layers pro...
Magnetic exchange spring systems are multi-layers or composites of magnetically hard and soft materi...
Exchange springs are formed in multilayers of alternating hard and soft ferromagnetic materials whic...
The magnetization reversal processes of [10nm ErFe2/nYFe2/4nm DyFe2/nYFe2] multilayer films with a (...
Magnetic measurements of [110] [50 A DyFe2/200 A YFe2] reveal a rich switching behaviour: the format...
The magnetization reversal processes of [10 nm ErFe2 / n YFe2 / 4 nm DyFe2 / n YFe2] multilayer film...
Magnetic exchange spring systems have potential applications in (i) the next generation of permanent...
International audienceMonte Carlo simulations are used to perform an atomic scale modeling of the ma...
International audienceMonte Carlo simulations are used to perform an atomic scale modeling of the ma...
1D models of magnetic multilayers, with alternating hard and soft layers, are extended to 2D and 3D,...
Using a history-dependent method, it is possible to prepare magnetic superlattices, consisting of al...
We present some universal results for exchange springs in multilayer systems with alternating hard a...
The Stoner–Wohlfarth model has proved reasonably successful in describing the coercivities of antife...
Epitaxial-grown DyFe2/YFe2 multilayer thin films form an ideal model system for the study of magneti...
Epitaxial-grown DyFe2/YFe2 multilayer thin films form an ideal model system for the study of magneti...
Magnetic exchange spring systems which consist of alternating thin hard and soft magnetic layers pro...