APL Materials (Mar 2014)

Anomalous magneto-structural behavior of MnBi explained: A path towards an improved permanent magnet

  • N. A. Zarkevich,
  • L.-L. Wang,
  • D. D. Johnson

DOI
https://doi.org/10.1063/1.4867223
Journal volume & issue
Vol. 2, no. 3
pp. 032103 – 032103-6

Abstract

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Low-temperature MnBi (hexagonal NiAs phase) exhibits anomalies in the lattice constants (a, c) and bulk elastic modulus (B) below 100 K, spin reorientation and magnetic susceptibility maximum near 90 K, and, importantly for high-temperature magnetic applications, an increasing coercivity (unique to MnBi) above 180 K. We calculate the total energy and magneto-anisotropy energy (MAE) versus (a, c) using DFT+U methods. We reproduce and explain all the above anomalies. We predict that coercivity and MAE increase due to increasing a, suggesting means to improve MnBi permanent magnets.