Temperature dependence of large positive magnetoresistance in hybrid ferromagnetic/semiconductor devices

Abstract

We investigate a new type of magnetoresistance (MR) in which the resistivity of a near-surface two-dimensional electron gas is controlled by the magnetization of a submicron ferromagnetic grating defined on the surface of the device. We observe an increase in resistance of up to $\text{∼1500\%}$ at a temperature of 4 K and $\text{∼1\%}$ at 300 K. The magnitude and temperature dependence of the MR are well accounted for by a semiclassical theory. Optimization of device parameters is expected to increase considerably the magnitude of the room temperature MR.