Emergence of noncollinear magnetic ordering in small magnetic clusters: Mnn and As@Mnn

Abstract

Using first-principles density functional calculations, we have studied the magnetic ordering in pure Mnn (n=2-10, 13, 15, 19) and As@Mnn (n=1-10) clusters. Although, for both pure and doped manganese clusters, there exists many collinear and noncollinear isomers close in energy, the smaller clusters with n≤slant5 have collinear magnetic ground state and the emergence of noncollinear ground states is seen for n≥slant6 clusters. Due to strong p-d hybridization in As@Mnn clusters, the binding energy is substantially enhanced and the magnetic moment is reduced compared to the corresponding pure Mnn clusters.