Modulating magnetic and electronic properties of lead-apatite Pb10(PO4)6O via different transition metal doping

Abstract

Based on the first-principles electronic structure calculations, we investigate the magnetic and electronic properties of transition-metal-doped Pb10(PO4)6O with the Pb atom substituted by various transition metals. The 3d orbitals of the doped transition metals are distributed near the Fermi energy and exhibit strong spin-polarization, resulting in the local magnetic moment. With the doped metal varying from V, Cr, Mn, Fe, Co, Ni, Cu, to Zn, the moment changes gradually from 3.0, 4.0, 5.0, 4.0, 3.0, 2.0, 1.0, to 0 μB, while the electronic structure is modulated progressively due to the continuous change of total charge. Moreover, the flat bands near the Fermi energy are also found in the V, Cr, and Fe-doped lead-apatite, similar to the Cu-doped system. Our work not only provides the critical comparative information for investigating the Cu-doped lead-apatite, but also suggest a category of diluted magnetic semiconductor.