Abstract
The linear systems optical resolution limit is a dense grating pattern at a λ/2 pitch or a critical dimension (resolution) of λ/4. However, conventional microscopy provides a (Rayleigh) resolution of only ~ 0.6λ/NA, approaching λ/1.67 as NA → 1. A synthetic aperture approach to reaching the λ/4 linear-systems limit, extending previous developments in imaging-interferometric microscopy, is presented. Resolution of non-periodic 180-nm features using 633-nm illumination (λ/3.52) and of a 170-nm grating (λ/3.72) is demonstrated. These results are achieved with a 0.4-NA optical system and retain the working distance, field-of-view, and depth-of-field advantages of low-NA systems while approaching ultimate resolution limits.
©2007 Optical Society of America
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