The compound BaFe2As2 is the proptotypical example of the 122 family of high-T-c Fe-based superconductors that crystallize in the ThCr2Si2 structure. Isostructural compounds can be formed by replacing Fe with another transition metal; using Mn produces the material BaMn2As2, which unlike its Fe-based cousin has an insulating ground state with a large magnetic moment of 3.9 mu(B) and G-type antiferromagnetic order. Despite its lack of superconductivity, the material is interesting in its own right. Recent experimental studies have shown that hole doping the compound by substituting K for Ba leads to metallic behavior and a spontaneous, weak, in-plane magnetization, which was attributed to the holes fully polarizing independent of the Mn moments, producing half-metallic behavior. However, the observed in-plane magnetization can also be understood as a small canting of the Mn moments. Using density functional theory, we demonstrate that a Mn moment canting occurs upon hole doping the compound. We argue that this is due to the competition between the super- and double-exchange interactions, which we support using a simple tight-binding model of the superexchange-double-exchange interaction and the Andersen force theorem. Our calculations also rule out an in-plane polarization of As holes as an explanation for the in-plane magnetization.

• 出版日期2014-2-13