Rare-earth free permanent magnet MnBi (NiAs-type crystal structure) displays strong magnetic anisotropy above its 90 K spin reorientation transition (SRT). X-ray magnetic circular dichroism (XMCD) shows induced magnetism in Bi 5d band, which is strongly coupled to the magnetism of Mn. A clear increase in Bi orbital-to-spin moment ratio is observed above the SRT. Hydrostatic pressure mimics the e*ect of temperature on the SRT, and the pressure effect also leads to anisotropic lattice contraction, which is known to be induced by cooling. These results reveal that temperature and pressure can similarly induce the coupled structural and magnetic responses, suggesting the importance of the anisotropic lattice change and Mn-Bi hybridization to the magnetic anisotropy change across the SRT.
Revised: November 29, 2016 |
Published: November 28, 2016
Citation
Choi Y., X. Jiang, W. Bi, P. Lapa, R.K. Chouhan, D. Paudyal, and T. Varga, et al. 2016.Element-resolved magnetism across the temperature- and pressure-induced spin reorientation in MnBi.Physical Review B 94, no. 18:184433.PNNL-SA-118447.doi:10.1103/PhysRevB.94.184433