The iron oxyhydroxide lepidocrocite (g-FeOOH) is an abundant mineral critical to a number of chemical and technological applications. Of particular interest is the ground state and nite temperature magnetic order, and the subsequent impact this has upon crystal properties. The magnetic properties, investigated in this work are governed primarily through superexchange interactions, and have been calculated using density functional theory and cluster expansion methods. Quantication of these exchange terms has facilitated the determination of the ground state magneto-crystalline structure and subsequent calculation of its lattice constants, elastic moduli, cohesive enthalpy, and electronic density of states. Further, using a collinear magnetic conguration model, the magnetic heat capacity versus temperature has been studied and the Neel temperature obtained.
Revised: October 26, 2020 |
Published: September 14, 2020
Citation
Pope D.J., A.E. Clark, K.M. Rosso, and M.P. Prange. 2020.Rethinking the Magnetic Properties of Lepidocrocite: A Density Functional Theory and Cluster Expansion Study.Journal of Applied Physics 128, no. 10:Article No. 103906.PNNL-SA-151728.doi:10.1063/5.0009300