Abstract
Present work investigates the structural, electronic and magnetic properties of wurtzite (0001) GaN nanowires (NWs) doped with Gd and point defects by employing the GGA+U approximation. We find that Ga vacancies (VGa) exhibit lower formation energy compared to N vacancies (VN). Further stabilization of point defects occurs due to the presence of Gd and ambient ferromagnetism (FM) can be stabilized in the NW by the additional positive charge induced by the VGa. Electronic structure analysis shows that VGa introduces additional levels in the band gap leading to ferromagnetic coupling due to the hybridization of the p states of the Ga and N atoms with the Gd d and f states. Ferromagnetic exchange coupling energy of 76.4meV is obtained in presence of Gd-VGa complex, and hence the FM is largely determined by the cation vacancy-rare earth complex defects in GaN NWs. On the other hand, the VN, which introduce additional electron carriers, does not assist in increasing the ferromagnetic exchange energy.
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URL
https://arxiv.org/abs/1511.01991