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High-resolution, wide-field object reconstruction with synthetic aperture Fourier holographic optical microscopy

Timothy R. Hillman, Thomas Gutzler, Sergey A. Alexandrov, David D. Sampson
2009 Optics Express  
We utilize synthetic-aperture Fourier holographic microscopy to resolve micrometer-scale microstructure over millimeter-scale fields of view. Multiple holograms are recorded, each registering a different, limited region of the sample object's Fourier spectrum. They are "stitched together" to generate the synthetic aperture. A low-numerical-aperture (NA) objective lens provides the wide field of view, and the additional advantages of a long working distance, no immersion fluids, and an
more » ... s, and an inexpensive, simple optical system. Following the first theoretical treatment of the technique, we present images of a microchip target derived from an annular synthetic aperture (NA = 0.61) whose area is 15 times that due to a single hologram (NA = 0.13); they exhibit a corresponding qualitative improvement. We demonstrate that a high-quality reconstruction may be obtained from a limited sub-region of Fourier space, if the object's structural information is concentrated there.
doi:10.1364/oe.17.007873 pmid:19434119 fatcat:2lv7gsc7lzbctkx6yf4fhiqqje