Crystal growth and magnetic structure of MnBi2Te4

Abstract

Millimeter-sized MnBi2Te4 single crystals are grown out of Bi-Te flux and characterized by measuring magnetic and transport properties, scanning tunneling microscope (STM) and spectroscopy (STS). The magnetic structure of MnBi2Te4 below TN is determined by powder and single crystal neutron diffraction measurements. Below TN=24\,K, Mn2+ moments order ferromagnetically in the ab plane but antiferromagnetically along the crystallographic c axis. The ordered moment is 4.04(13) μB/Mn at 10\,K and aligned along the crystallographic c-axis. The electrical resistivity drops upon cooling across TN or when going across the metamagnetic transition in increasing fields below TN. A critical scattering effect was observed in the vicinity of TN in the temperature dependence of thermal conductivity. However, A linear temperature dependence was observed for thermopower in the temperature range 2K-300K without any anomaly around TN. These indicate that the magnetic order in Mn-Te layer has negligible effect on the electronic band structure, which makes possible the realization of proposed topological properties in MnBi2Te4 after fine tuning of the electronic band structure.