Magnetotransport properties of LaAlO₃/SrTiO₃-based ultradense two-dimensional nanowire networks

Conductive AFM lithography can be used to form various conductive nanostructures in the 2D electron system formed at the interface of LaAlO3/SrTiO3. Previous studies on quasi-2D structures, such as waveguide 'nanocrosses', indicate that the electron transport is strongly influenced by ferroelastic domain structure, which in turn depends on the angle between the nanocross and the crystallographic direction. Here we characterize a dense network of nanocrosses or 2D nanowire networks, and probe the magnetotransport properties as a function of the angle of orientation of the nanowire network with the crystallographic direction. Such families of 2D networks of nanowires and/or waveguides, if sufficiently well understood, can be regarded as a possible platform for 2D quantum simulation.