FABRICATION OF SINGLE-CRYSTALLINE ALUMINUM NANOSTRUCTURES

Single-crystalline aluminum films were grown on silicon (111) wafer us ing the method of Miura et al. [1]. The films were patterned into wire structures by electron-beam lithography and dry-etching. For a sub-50 nm line width, the high-resolution part of the pattern was defined in the negative tone of a PMMA film which was used as the image layer in a three-layer resist system. Large structures were defined in outline in the positive tone of the same PMMA film. Magnetoresistance and Lit tle-Parks oscillations were measured in wire arrays of 100x1000 square cells with sides of 1 mum and a line width of approximately 40 nm. Co mpared to polycrystalline Al structures the single-crystalline structu res have a longer electron phase coherence length and electron mean fr ee path and are very immune for electrical breakdown by electrostatic discharge, etc.