Nitrogen as the best interstitial dopant among X=B, C, N, O and F for strong permanent magnet NdFe11TiX: First-principles study

Abstract

We study magnetic properties of NdFe11TiX, where X=B, C, N, O, and F, by using the first-principles calculation based on the density functional theory. Its parent compound NdFe11Ti has the ThMn12 structure, which has the symmetry of space group I4/mmm, No. 139. The magnetization increases by doping B, C, N, O, and F at the 2b site of the ThMn12 structure. The amount of the increase is larger for X=N, O, F than for X=B, C. On the other hand, the crystal field parameter r2 A02, which controls the axial magnetic anisotropy of the Nd 4f magnetic moment, depends differently on the dopant. With increase of the atomic number from X=B, r2 A02 increases, takes a maximum value for X=N, and then turns to decrease. This suggests that in NdFe11TiX, nitrogen is the most appropriate dopant among B, C, N, O, and F for permanent magnets in terms of magnetization and anisotropy. The above calculated properties are explained based on the detailed analysis of the electronic structures of NdFe11TiX.