Perpendicular magnetic anisotropy in Mn2CoAl thin film

N Y Sun,H R Fu,Y Q Zhang,R Shan,C Y You,W R Che

doi:10.1063/1.4939934

Abstract

Heusler compound Mn2CoAl (MCA) is attracting more attentions due to many novel properties, such as high resistance, semiconducting behavior and suggestion as a spin-gapless material with a low magnetic moment. In this work, Mn2CoAl epitaxial thin film was prepared on MgO(100) substrate by magnetron sputtering. The transport property of the film exhibits a semiconducting-like behavior. Moreover, our research reveals that perpendicular magnetic anisotropy (PMA) can be induced in very thin Mn2CoAl films resulting from Mn-O and Co-O bonding at Mn2CoAl/MgO interface, which coincides with a recent theoretical prediction. PMA and low saturation magnetic moment could lead to large spin-transfer torque with low current density in principle, and thus our work may bring some unanticipated Heusler compounds into spintronics topics such as the domain wall motion and the current-induced magnetization reversal.

Highlights

Heusler compound Mn2CoAl (MCA) is attracting more attentions due to many novel properties, such as high resistance, semiconducting behavior and suggestion as a spin-gapless material with a low magnetic moment
Our research reveals that perpendicular magnetic anisotropy (PMA) can be induced in very thin Mn2CoAl films resulting from Mn-O and Co-O bonding at Mn2CoAl/MgO interface, which coincides with a recent theoretical prediction
Two series of Mn2CoAl thin films were fabricated by direct current magnetron sputtering from a stoichiometric target with Mn:Co:Al = 2:1:1 and the film composition analyzed by X-ray photoelectron spectroscopy (XPS, ESCALAB 250Xi) is about Mn:Co:Al = 2.2:0.9:0.9, which shows a deviation from stoichiometric ratio