On the origin and the manipulation of ferromagnetism in Fe3GeTe2: defects and dopings

Abstract

To understand the magnetic properties of Fe3GeTe2, we performed the detailed first-principles study. Contrary to the conventional wisdom, it is unambiguously shown that Fe3GeTe2 is not ferromagnetic but antiferromagnetic carrying zero net moment in its stoichiometric phase. Fe defect and hole doping are the keys to make this material ferromagnetic, which are shown by the magnetic force response as well as the total energy calculation with the explicit Fe defects and the varied system charges. Further, we found that the electron doping also induces the antiferro- to ferromagnetic transition. It is a crucial factor to understand the notable recent experiment of gate-controlled ferromagnetism. Our results not only unveil the origin of ferromagnetism of this material but also show how it can be manipulated with defect and doping.