Three-dimensional gradient index microlens arrays for light-field and holographic imaging and displays

The geometric, intensity, and chromatic distortions that are a result of the limitations of the material and processes used to fabricate micro-optical lens arrays (MLAs) degrade the performance of light-field systems. To address these limitations, inkjet print additive manufacturing is used to fabri...

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Bibliographic Details
Published in:Applied optics (2004) 2023-05, Vol.62 (14), p.3710
Main Authors: Williams, George M., Dupuy, Charles, Brown, Jeremy, Grimm, Samuel, Akhavan, Hooman, Paul Harmon, J.
Format: Article
Language:English
Subjects:
Arrays
Aspect ratio
Crosstalk
Luminous intensity
Manufacturing
Microlenses
Performance degradation
Refractivity
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Summary:The geometric, intensity, and chromatic distortions that are a result of the limitations of the material and processes used to fabricate micro-optical lens arrays (MLAs) degrade the performance of light-field systems. To address these limitations, inkjet print additive manufacturing is used to fabricate planar gradient index (GRIN) lenslet arrays, in which volumetric refractive index profiles are used to embed optical functions that would otherwise require multiple homogeneous index MLA surfaces. By tailoring the optical ink feedstock refractive index spectra, independent control over dispersion is achieved, and achromatic performance is made possible. Digital manufacturing is shown to be beneficial for optimizing individual micro-optical channels in arrays wherein the shape, size, aspect ratio, focal length, and optical axis orientation of the lenslets vary as a function of the position within the optical field. Print fabrication also allows opaque inter-lens baffling and aperture stops that reduce inter-channel cross talk, improve resolution, and enhance contrast. These benefits are demonstrated in a light-field display testbed.
ISSN:1559-128X
2155-3165
DOI:10.1364/AO.485740