Perpendicular magnetic anisotropy at the Fe/MgAl2O4 interface: Comparative first-principles study with Fe/MgO

Abstract

We present a theoretical study on interfacial magnetocrystalline anisotropy for Fe/MgAl2O4. This system has a very small lattice mismatch at the interface and therefore is suitable for realizing a fully coherent ferromagnet/oxide interface for magnetic tunnel junctions. On the basis of density functional theory, we calculate the interfacial anisotropy constant K i and show that this system has interfacial perpendicular magnetic anisotropy (PMA) with K i ≈ 1.2\, mJ/m2, which is a little bit smaller than that of Fe/MgO (K i ≈ 1.5--1.7\, mJ/m2). Second-order perturbation analysis with respect to the spin-orbit interaction clarifies that the difference in K i between Fe/MgAl2O4 and Fe/MgO originates from the difference in contributions from spin-flip scattering terms at the interface. We propose that the insertion of tungsten layers into the interface of Fe/MgAl2O4 is a promising way to obtain huge interfacial PMA with K i 3\, mJ/m2.