Growth mechanism of YMnO3 film as a new candidate for nonvolatile memory devices

Abstract

We have proposed ReMnO₃ (Re: rare earth) thin films for nonvolatile memory devices. We examine the growth mechanism of YMnO₃ films on (0001)ZnO:Al/(0001) sapphire substrate using rf magnetron sputtering and pulsed laser deposition methods with oxide compound target. We have succeeded in obtaining (0001) epitaxial YMnO₃ films on (111) MgO and (0001)ZnO:Al/(0001) sapphire substrate, and polycrystalline films on (111)Pt/(111)MgO. For an optimal structure, the film needed much less oxygen from the gas phase compared to other oxide films. The composition (Y/Mn ratio) of the YMnO₃ films changed drastically by varying the partial oxygen pressure in the sputtering gas. In addition the Y/Mn ratio slinfled with sputter time due to target surface modification, probably caused by Y segregation. An extremely small amount of oxygen is required to form the YMnO₃ crystal. This was confirmed by pulsed laser deposition experiments.