Abstract
First-principles calculations are carried out in order to find the ferromagnetism dependence on the number of holes substituted for Sn sites. The results show that strong localization of defect states of the p bands of the oxygen atoms near the dopants favors high-spin states and local moment formation. These states appear to be ferromagnetically coupled with a rather long-range magnetic interaction, resulting in a half-metallic ferromagnetic ground state for the whole systems. Analysis of the total energies indicates that the induced well-confined ferromagnetism in the oxygen p orbitals due to hole doping is quite possible and easily controlled in these systems, which indicate a new way to develop a half-metallic ferromagnet in nonmagnetic d 0 oxides.
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