Electronic States and Magnetism of Mn Impurities and Dimers in Narrow-Gap and Wide-Gap III-V Semiconductors
Abstract
Electronic states and magnetic properties of single Mn impurity and dimer doped in narrow-gap and wide-gap III-V semiconductors have been studied systematically. It has been found that in the ground state for single Mn impurity, Mn-As(N) complex is antiferromagnetic (AFM) coupling when p-d hybridization Vpd is large and both the hole level Ev and the impurity level Ed are close to the midgap; or very weak ferromagnetic (FM) when Vpd is small and both Ev and Ed are deep in the valence band. In Mn dimer situation, the Mn spins are AFM coupling for half-filled or full-filled p orbits; on the contrast, the Mn spins are double-exchange-like FM coupling for any p-orbits away from half-filling. We propose the strong p-d hybridized double exchange mechanism is responsible for the FM order in diluted III-V semiconductors.
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