Nanoscale Electrostatic Confinement at Oxide Interfaces

Srijit Goswami, Emre Mulazimoglu, Lieven M. K. Vandersypen, Andrea D. Caviglia

Published 2014-10-08Version 1

We develop a robust and versatile platform to define nanostructures at oxide interfaces via patterned top gates. Using LaAlO$_3$/SrTiO$_3$ as a model system, we demonstrate controllable confinement of electrons to nanoscale regions in the conducting interface. The excellent gate response, ultra-low leakage currents, and long term stability of these gates allows us to perform a detailed study of devices in a split-gate geometry. Electrical transport through such devices displays a distinct threshold associated with depletion directly below the gates, resulting in the formation of a narrow conducting channel even at room temperature. We examine the effects of cross-talk between the gates, and also show that a combination of top gates and back gate can be used to efficiently modulate charge transport through these nanostructures.