Crossover between in-plane and perpendicular anisotropy in Ta/CoxFe100-x/MgO films as a function of Co composition

Interfacial magnetic anisotropy in Ta/Co[subscript x]Fe[subscript 100-x] (CoFe)/MgO films for alloy compositions spanning pure Co to pure Fe has been studied in order to investigate the role of chemical composition in the onset of perpendicular magnetic anisotropy at the CoFe/MgO interface. Out-of-plane magnetization is not observed in Ta/Fe/MgO (x = 0) and Ta/Co/MgO (x = 100), for all ranges of CoFe thickness (t), but a t-dependent crossover between in-plane and out-of-plane anisotropy is found for x = 20, 50, and 80. Interestingly, effective magnetic anisotropy K[subscript u] as well as interfacial anisotropy Ki are maximized for Co[subscript 50]Fe[subscript 50] at a fixed t = 0.8 nm. The results suggest that the degree of filling of valence bands in the CoFe adjacent to the interface, which determines the relative population of the anisotropic d-bands, plays an important role in the interfacial anisotropy brought on by CoFe-O hybridization at the metal/oxide interface.