Dc-Conduction mechanism in lanthanum–manganese oxide films grown on p-Si substrate

Abstract

Thin films of (La–Mn) double oxide were prepared on p-Si substrates for electrical investigations. The samples have been characterised by X-ray fluorescence (XRF) and X-ray diffraction (XRD) methods. The XRF spectrum was used to determine the weight fraction ratio of Mn to La in the prepared samples. The XRD study shows the formation of grains of LaMnO 3 compound through a solid-state reaction for annealing at 800 °C. Samples used to study the electrical characteristics of the prepared films were constructed in form of a metal–oxide–Si MOS structures. Those MOS structures were characterised by the measuring their capacitance as a function of gate voltage C( V g) in order to determine the oxide charge density Q ox, the surface density of states D it at the oxide/Si interface, and to extract the oxide voltage in terms of gate voltage. The extracted dielectric constant of the double oxide film is lower than that of pure La 2O 3 film and larger than that of pure Mn 2O 3 film, but the formation of LaMnO 3 grains by a solid-state reaction at 800 °C increases the relative permittivity to 11.5. These experimental conclusions might be useful to be used in the field of Si-oxide alternative technique. The leakage dc current density vs. oxide field J( E ox) relationship for crystalline films follow the mechanism of Richardson–Schottky (RS), from which the field-lowering coefficient and the dynamic relative permittivity were determined. Nevertheless, the leakage current density measured in a temperature range of (293–363 K) was not controlled by the RS mechanism. It was observed that the temperature dependence of the leakage current in crystalline (La–Mn) oxide insulating films has metallic-like temperature behaviour, which might be important in the technical applications.