Magnetic anisotropy in single-crystalline antiferromagnetic Mn2Au

Abstract

Multiple recent studies have identified the metallic antiferromagnet Mn2Au to be a candidate for spintronic applications due to apparent in-plane anisotropy, preserved magnetic properties above room temperature, and current-induced N\'eel vector switching. Crystal growth is complicated by the fact that Mn2Au melts incongruently. We present a bismuth flux method to grow millimeter-scale bulk single crystals of Mn2Au in order to examine the intrinsic anisotropic electrical and magnetic properties. Flux quenching experiments reveal that the Mn2Au crystals precipitate below 550C, about 100C below the decomposition temperature of Mn2Au. Bulk Mn2Au crystals have a room-temperature resistivity of 16-19 μ-cm and a residual resistivity ratio of 41. Mn2Au crystals have a dimensionless susceptibility on the order of 10-4, comparable to calculated and experimental reports on powder samples. Single-crystal neutron diffraction confirms the in-plane magnetic structure. The tetragonal symmetry of Mn2Au constrains the ab-plane magnetic susceptibility to be constant, meaning that 100=110 in the low-field limit, below any spin-flop transition. We find that three measured magnetic susceptibilities 100, 110, and 001 are the same order of magnitude and agree with the calculated prediction, meaning the low-field susceptibility of Mn2Au is quite isotropic, despite clear differences in ab-plane and ac-plane magnetocrystalline anisotropy. Mn2Au is calculated to have an extremely high in-plane spin-flop field above 30 T, which is much larger than that of another in-plane antiferromagnet Fe2As (less than 1 T). The subtle anisotropy of intrinsic susceptibilities may lead to dominating effects from shape, crystalline texture, strain, and defects in devices that attempt spin readout in Mn2Au.

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