Journal ArticleDOI
Binary computer-generated holograms
TLDR
An accurate numerical method which circumvents two difficulties in using binary Fourier transform holograms and three different techniques for storing amplitude information in the binary computer-generated holograms are discussed.Abstract:
Binary computer-generated holograms are similar to interferograms with fringe patterns hardclipped by a photographic process. Therefore the fringe locations in the binary hologram can be determined by solving a grating equation. However, there are two difficulties in using this approach to make binary Fourier transform holograms. First the discrete Fourier transform provides only data at discrete sampling locations. Second, the phase angles thus calculated are given in terms of the residues of the original phase angles after multiples of 2pi rad are removed. In this paper an accurate numerical method which circumvents these two difficulties is described. Also discussed are three different techniques for storing amplitude information in the binary computer-generated holograms. The different solution methods discussed in this paper are further illustrated by a number of computer-generated holograms and their reconstructed images.read more
Citations
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Journal ArticleDOI
Creation and detection of optical modes with spatial light modulators
TL;DR: It is outlined how virtually all the previous ISO-standard beam diagnostic techniques may be readily replaced with all-digital equivalents, thus paving the way for unravelling of light in real time.
Journal ArticleDOI
Generation of electron Airy beams
TL;DR: A non-spreading electron wavefunction that self-heals, restoring its original shape after passing an obstacle is observed, which opens up new avenues for steering electronic wave packets like their photonic counterparts, because the wave packets can be imprinted with arbitrary shapes or trajectories.
Journal ArticleDOI
Diffractive optical elements: iterative calculation of quantized, blazed phase structures
TL;DR: In this paper, a procedure to calculate a highly quantized, blazed phase structure is presented, which is based on iterative Fourier transform (IFT) algorithms with high diffraction efficiency and a large signal-to-noise ratio.
Journal ArticleDOI
Holographic optical metasurfaces: a review of current progress
Patrice Genevet,Federico Capasso +1 more
TL;DR: Using the new nanotechnologies to carve subwavelength features within the large diffracting apertures of conventional holograms, it is now possible to create binary holographic interfaces to shape both amplitude phase and polarization of light.
Journal ArticleDOI
Electron vortices: Beams with orbital angular momentum
Abstract: This article presents a review on electron vortex beams highlighting both its experimental and its theoretical aspects. The unique characteristics of electron vortex states as well as their similarities with orbital angular momentum states of light are discussed and perspectives are offered for their application in a number of technologies.
References
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Journal ArticleDOI
Reconstructed Wavefronts and Communication Theory
Emmett N. Leith,Juris Upatnieks +1 more
TL;DR: In this paper, a two-step imaging process is described from a communication-theory viewpoint, which consists of three well-known operations: a modulation, a frequency dispersion, and a square-law detection.
Journal ArticleDOI
Binary Fraunhofer Holograms, Generated by Computer
Adolf W. Lohmann,D. P. Paris +1 more
TL;DR: A theory for binary holograms is developed that is equivalent in terms of image reconstruction with ordinary holograms, proven theoretically and verified experimentally.
Journal ArticleDOI
Complex Spatial Filtering with Binary Masks
B. R. Brown,Adolf W. Lohmann +1 more
TL;DR: Binary holograms yield reconstructed images of a quality equal to that of images obtained from usual holograms of comparable dimensions, and their binary matched filter is suitable for optical character recognition, the same as the usual optical matched filter introduced by Vander Lugt.
Journal ArticleDOI
Computer-generated binary holograms
B. R. Brown,Adolf W. Lohmann +1 more
TL;DR: Computer holograms differ from a normal hologram in that the transmittance is binary, yet they are able to construct general wavefronts and images efficiently and have several practical advantages over holograms with a continuous range ofTransmittance.
Journal ArticleDOI
Binary Synthetic Holograms
TL;DR: The positions and width of the fringes in a binary synthetic hologram are determined by the points at (x,y) that satisfy -q/2, where q is a constant determining the fringe width.