Affiliation:
1. Duke University
2. Imperial College London
3. Faculty
4. Arizona State University
Abstract
Holography is a long-established technique to encode an object’s
spatial information into a lower-dimensional representation. We
investigate the role of the illumination’s spatial coherence
properties in the success of such an imaging system through point
spread function and Fourier domain analysis. Incoherent illumination
is shown to result in more robust imaging performance free of
diffraction artifacts at the cost of incurring background noise and
sacrificing phase retrieval. Numerical studies confirm that this
background noise reduces image sensitivity as the image size
increases, in agreement with other similar systems. Following this
analysis, we demonstrate a 2D holographic imaging system realized with
lensless, 1D measurements of microwave fields generated by dynamic
metasurface apertures.
Funder
Air Force Office of Scientific
Research
Gordon and Betty Moore
Foundation
Leverhulme Trust
Cited by
3 articles.
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