Element-resolved study of the evolution of magnetic response in Fe_xN compounds

A systematic XMCD analysis was performed to study the evolution of magnetic moments of overall Fe atoms in alpha'-FexN thin films. It was found that the spin and orbital moments of overall Fe 3d shell of alpha'-FexN increase gradually along c-axis with increasing nitrogen fraction. We showed that the magnetocrystalline anisotropy of alpha'-FexN compounds is associated with corresponding orbital anisotropy of Fe 3d shell. No clear p-d hybridization between Fe and N elements was discovered in the current experimental systems, suggesting that lattice expansion has a sufficient influence on magnetic performance of alpha'-Fe8N compounds

Consolidation of cobalt nanorods: A new route for rare-earth free nanostructured permanent magnets

International audienceRare-earth free permanent magnets were produced by consolidation of cobalt nanorods synthesized by the polyol process exhibiting a mean diameter in the range 10e30 nm. Compactions of magnetically prealigned rod assemblies at various pressures and temperatures were carried out to make dense materials. Bulk magnets exhibiting a very good mechanical strength and an energy product as high as 65 kJ m À3 were obtained. The best results were obtained when the compaction conditions were soft enough to preserve the morphology and alignment of the rods in the final material, as revealed by X-ray diffraction and neutron scattering. For the first time the bottom-up approach is convincingly reported to produce bulk magnets without the addition of any matrix, the obtained nanostructured materials exhibit coercivity much higher than the AlNiCo magnets and can fill the performance " gap " between hexaferrites and rare-earth based magnets