Methods of diffractive optical element generation for rapid, high-quality 3D image formation of objects divided into a set of plane layers

Methods of diffractive optical element generation for rapid, high-quality 3D image formation of objects divided into a set of plane layers

This article focuses on generation of diffractive optical elements (DOEs) and computer holograms for forming three-dimensional (3D) images. We intend to analyze the possibilities of increasing (1) the speed of generation of DOEs, and (2) the quality of 3D objects created by the DOEs generated. For t...

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Bibliographic Details
Published in:Measurement techniques Vol. 66; no. 11; pp. 863 - 871
Main Authors: Zlokazov, E. Yu, Minaeva, E. D., Rodin, V. G., Starikov, R. S., Cheremkhin, P. A., Shifrina, A. V.
Format: Journal Article
Language:English
Published: New York Springer US 01-02-2024
Springer Nature B.V
Subjects:
Analytical Chemistry
Characterization and Evaluation of Materials
Communications systems
Computation
Computer simulation
Diffractive optical elements
Image quality
Image reconstruction
Iterative methods
Liquid crystals
Measurement Science and Instrumentation
Optical components
Optimization
Parallel processing
Physical Chemistry
Physics
Physics and Astronomy
Spatial light modulators
Three dimensional imaging
Video communication
3D-object
Liquid crystal spatial light modulator
Image registration
A set of plane layers
Nonconvex optimization
Diffractive optical element
Computer generation
Parallel computation of plane layers
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Summary:This article focuses on generation of diffractive optical elements (DOEs) and computer holograms for forming three-dimensional (3D) images. We intend to analyze the possibilities of increasing (1) the speed of generation of DOEs, and (2) the quality of 3D objects created by the DOEs generated. For this, four methods of optical element generation are analyzed, which are based on division of 3D objects into plane layers. We assess the quality of 3D-object image reconstruction and the resource intensity of the methods with respect to synthesis of DOEs. We conduct a computer simulation of reconstruction of images of 3D objects via the generated DOEs. In optical experiments on formation of 3D objects, the DOEs generated are displayed on a liquid crystal spatial light modulator. We experimentally establish that the method of parallel computation of plane layers and the method of nonconvex optimization are optimum for formation of 3D objects vis-à-vis quality of their reconstruction. Taking into account the computational resource intensity of the considered methods, the iterative method of parallel computation of plane layers yielded the optimal DOE generation results in terms of reconstruction quality-to-synthesis speed ratio. The possibility of fast formation of high-quality 3D objects comprising dozens of layers has been demonstrated, which can be used in high-resolution 3D video communication systems.
ISSN:0543-1972
1573-8906
DOI:10.1007/s11018-024-02301-5