First-principles study on ferromagnetism in 4H-SiC codoped with Al and Mn†
Abstract
The electronic structures and magnetic properties in 4H-SiC codoped with Al and Mn have been investigated systematically based on density functional theory. Our results show that (Al,Mn)-codoping introduces spin-polarized hole states in 4H-SiC. The codoped system prefers the ferromagnetic state and the magnetization energy is larger than some of the known room-temperature diluted magnetic semiconductors (DMSs), indicating high RT ferromagnetism for (Al,Mn): 4H-SiC can be expected. The ferromagnetic property is mainly attributed to the 3d orbitals of Mn. Besides that the coupling of Mn–C–Mn also plays important roles in enhancing ferromagnetism in the case with more than one Mn atom. Our study explains the intrinsic factors inducing magnetism in 4H-SiC, which may provide a promising approach for preparing DMSs.