Abstract
In this work, the influence of Cr and Mn impurity atoms on the electronic structure and magnetic properties of 3C–SiC was analyzed by carrying out first-principles calculations using the GGA + U method, and the influence of Si vacancies on the co-doped system was also considered. The results showed 3C–SiC systems mono-doped with Cr and Mn atoms to be spin-polarized had total magnetic moments of 3.05 and 5.00 μB, respectively. The ferromagnetic state of each of various (Cr, Mn)-co-doped 3C–SiC systems was determined to be more stable than the antiferromagnetic state, with a magnetization energy of −702.3 meV for the most stable system and a total magnetic moment of about 6.00 μB. Finally, the effect of Si vacancies on the doping system was considered on the basis of (Cr, Mn) co-doping. The introduction of Si vacancies reduced the ferromagnetism of the (Cr, Mn)-co-doped 3C–SiC system. The calculations performed in this research have provided a theoretical basis for using (Cr, Mn)-co-doped 3C–SiC as a spintronic device.
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