Density functional theory study of vacancy induced magnetism in Li3N

Abstract

The effect of lithium vacancies in the hexagonal structure of α-Li3N, is studied within the framework of density functional theory. Vacancies () substituting for lithium in α-Li2(Li1-xx)N are treated within the coherent potential approximation as alloy components. According to our results long range N(p)-ferromagnetism ( 1 μB) sets in for vacancy substitution within the [Li2N] layers (x 0.7) with no significant change in unit cell dimensions. By total energies differences we established that in-plane exchange couplings are dominant. Vacancies substituting inter-plane Li, leads to a considerable structural collapse (c/a ≈ 0.7) and no magnetic moment formation.