High-Tc d0 ferromagnetism in a doped Mott insulator: the case of hydrogenated epitaxial graphene on SiC(0001)

Abstract

We show that the d0 ferromagnetism with high Curie temperature (Tc) can be achieved in the electron doped hydrogenated epitaxial graphene on some certain SiC substrates through first-principles calculations. The pristine systems are found to be a Mott insulator independent of SiC polytypes (2H, 4H or 6H) which, however, play a significant role in the modulation of magnetic interaction. Carrier doping enhances the ferromagnetic coupling due to the double exchange mechanism and thus realizes the phase transition from antiferromagnetism to ferromagnetism. A Tc of around 400 K is predicted on the 2H-SiC. We employ a non-degenerate Hubbard model to demonstrate how the SiC affects the interfacial magnetism in intra-atomic Coulomb repulsion and intersite hopping interactions.