Controlled nanostructures at La0.7Sr0.3MnO3 thin film surfaces formed by STM lithography

Abstract

Nanoscale lithography on La0.7Sr0.3MnO3 (LSMO) thin film surfaces has been performed by scanning tunneling microscopy under ambient conditions. From line-etching experiments we found that the line depth is increasing in a step-wise fashion with increasing bias voltage as well as with decreasing scan speed. On average, the depth of the etched lines is an integral multiple of the LSMO out-of-plane lattice constant about 0.4 nm. A minimum wall thickness of 1.5 nm was obtained between etched lines. We have utilized the ability to control the etched line depths to create complicated inverse-pyramid nanostructure. Our work shows the feasibility of using STM lithography to create controllable and complex nanoscale structures in LSMO thin film.