24 December 2019 Spatial resolution comparison of a diffractive plenoptic camera and an intermediate image diffractive plenoptic camera
Author Affiliations +
Abstract

The diffractive plenoptic camera (DPC) was developed as a system that would capture the spectral and spatial information of a scene in one snapshot. While the DPC couples a diffractive optic with plenoptic camera designs to provide snapshot spectral imaging capabilities, it produces rendered images with low pixel count and low spatial resolution. A modified setup of the DPC, the intermediate image (II)DPC, was built and tested for the first time and compared to both the DPC and a diffractive-optic camera as a system that could improve the cutoff spatial frequency of the rendered images. This paper reports on the spatial resolution achieved for different configurations of the IIDPC and looks at the factors limiting performance. The IIDPC improved on the cutoff spatial resolution over the DPC over a wavelength range of 750 to 790 nm for a design wavelength of 770 nm and improved resolution over a diffractive-optic camera at wavelengths below 750 nm or above 790 nm, with the best results achieved for IIDPC configurations with the largest magnification. Frequency analysis of each system determined that the optic limiting performance was the microlens array. Models showed that decreasing the microlens size improved resolution but reduced the spectral range for the DPC, while decreasing the f  /  # of the microlenses improved the resolution for the IIDPC. These results will help optimize the designs of future systems.

© 2019 Society of Photo-Optical Instrumentation Engineers (SPIE) 0091-3286/2019/$28.00 © 2019 SPIE
Carlos D. Diaz, Anthony L. Franz, and Michael A. Marciniak "Spatial resolution comparison of a diffractive plenoptic camera and an intermediate image diffractive plenoptic camera," Optical Engineering 58(12), 123102 (24 December 2019). https://doi.org/10.1117/1.OE.58.12.123102
Received: 26 August 2019; Accepted: 9 December 2019; Published: 24 December 2019
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KEYWORDS
Microlens

Cameras

Spatial resolution

Spatial frequencies

Imaging systems

Modulation transfer functions

Data modeling

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