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Optical Engineering

Digital Decoding Of In-Line Holograms
Author(s): Levent Onural; Peter D. Scott
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Paper Abstract

Digitally sampled in-line holograms may be linearly filtered to reconstruct a representation of the original object distribution, thereby decoding the information contained in the hologram. The decoding process is performed by digital computation rather than optically. Substitution of digital for optical decoding has several advantages, including selective suppression of the twin-image artifact, elimination of the far-field requirement, and automation of the data reduction and analysis process. The proposed filter is a truncated series expansion of the inverse of that operator that maps object opacity function to hologram intensity. The first term of the expansion is shown to be equivalent to conventional (optical) reconstruction, with successive terms increasingly sup-pressing the twin image. The algorithm is computationally efficient, requiring only a single fast Fourier transform pair.

Paper Details

Date Published: 1 November 1987
PDF: 9 pages
Opt. Eng. 26(11) 261124 doi: 10.1117/12.7974205
Published in: Optical Engineering Volume 26, Issue 11
Show Author Affiliations
Levent Onural, Bilkent University (Turkey)
Peter D. Scott, State University of New York at Buffalo (United States)

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