Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
1594352 | Solid State Communications | 2008 | 4 Pages |
A series of Fe3−xMgxO4 (0≦x≦1.50≦x≦1.5) films were grown by plasma-oxygen- assisted molecular beam epitaxy (MBE), and systematical measurements, including structure and resistivity of these films, were studied. These films are grown on MgO and SrTiO3 (STO), which have small (∼−0.3%) and large (∼7.5%) lattice mismatch in order to obtain either strained or relaxed films, respectively. The X-ray diffraction data for the films grown on the MgO substrates show (004) and (008) peaks, indicating single crystalline quality, but extra (l l l) peaks are also observed for the films grown on the STO substrates, indicating polycrystalline structure. Resistance as a function of temperature (78–345 K) for all films is carried out. The resistivity of the films grown on both substrates presents a typical Arrhenius temperature dependence with ρ=ρ0exp(Ep/kBT)ρ=ρ0exp(Ep/kBT). The prefactor ρ0ρ0 increases linearly as a function of xx in Fe3−xMgxO4, which indicates that Mg2+ ions have replaced Fe2+ ions at both the A and B sites, and have formed a mixed spinel structure. The activation energy remains a constant ∼60 meV in the range 0