Abstract We investigated the tunability of the transport and magnetic properties in 7.5 nm La 0.7 Sr 0.3 MnO 3 (LSMO) epitaxial films in a field effect geometry with the ferroelectric… Click to show full abstract
Abstract We investigated the tunability of the transport and magnetic properties in 7.5 nm La 0.7 Sr 0.3 MnO 3 (LSMO) epitaxial films in a field effect geometry with the ferroelectric copolymer P(VDF-TrFE) as the gate insulator. Two different switching behaviors were observed upon application of gate voltages with either high or low magnitudes. The application of single voltage pulses of alternating polarity with an amplitude high enough to switch the remanent polarization of the ferroelectric copolymer led to a 15% change of the resistance of the LSMO channel at temperature 300 K (but less than 1% change at 20 K). A minimal shift of the peak in the resistance-temperature plot was observed, implying that the Curie temperature T C of the manganite layer is not changed. Alternatively, the application of a chain of low voltage pulses was found to shift T C by more than 16 K, and a change of the channel resistance by a 45% was obtained. We attribute this effect to the field-assisted injection and removal of oxygen vacancies in the LSMO layer, which can occur across the thickness of the oxide film. By controlling the oxygen migration, the low-field switching route offers a simple method for modulating the electric and magnetic properties of manganite films.
               
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