First-principles study of α-Pu2O3

Abstract

We systematically investigate the electronic structure, magnetic order, and valence states of α-Pu2O3 (C-type) by using first-principles calculations. α-Pu2O3 can be constructed from PuO2 by removing 25% oxygen atoms. Our results show that the Pu 5f orbitals are further localized after removing ordered oxygen atoms. This phenomenon is demonstrated by the combined fact that (i) the volume per unit cell expands 7% and (ii) the corresponding magnetic moments and valence states for Pu ions increase and decrease, respectively. According to the density of states and charge density distribution analysis, PuO2 is found to be more covalent than α-Pu2O3, which is also because of the more localization of 5f orbitals in the latter. The calculated lattice constants, bulk modulus, and electronic structures for PuO2 and α-Pu2O3 are consistent well with experimental observations.