Spatial-frequency multiplication with multilevel interference lithography

The authors present a large-area spatial-frequency multiplication fabrication process for patterning one-dimensional periodic structures using multilevel interference lithography. In this process, multiple grating levels with different phase offsets are overlaid by aligning to a reference grating. Each grating level is pattern transfered into a single hard mask layer, effectively reducing the grating period. The linewidth of the grating lines is controlled with nanometer repeatability by plasma etching and an image-reversal process. The authors demonstrate overlay accuracy of 0.6 1.9 nm over 16 12 mm2 for two levels of 200 nm period gratings. Using this process, a subdiffraction-limited resolution grating with 100 nm period is fabricated using light with =351.1 nm. This process can also be used to fabricate more complex periodic geometries. © 2008 American Vacuum Society. DOI: 10.1116/1.2976604