Structural and Magnetic Properties of Co-rich bct CoMn Films

Abstract

Thin-films of bct Co1-xMnx grown by molecular beam epitaxy on MgO(001) were measured to have an enhanced atomic magnetic moment of 2.52 0.07 μB/atom beyond the pinnacle of the Slater-Pauling curve for Fe1-xCox with a moment of 2.42 μB/atom. The compositional variation of the average total moment for thin-film bct Co1-xMnx alloys is in stark contrast to the historical measurements of bulk fcc Co1-xMnx. These GGA calculations reveal that significant improvements of this ferromagnetic forced bct phase on MgO(001) are possible via substrate selection. For example, bct Co1-xMnx films on MgO(001) are calculated to have lower atomic moments than those on substrates with smaller lattice constants such as GaAs(001), BaTiO3(110), and SrTiO3(110) which is predicted to increase the average atomic moment up to 2.61 μB/atom and lead to increased structural stability and therefore thicker film growths.

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