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Sparse holographic imaging for an integrated augmented reality near-eye display

Christophe Martinez, Matthias Colard, Paul Legentil, Kyllian Millard, Fabian Rainouard

2023Applied Optics12 citationsDOI

Abstract

Diffraction is the main physical effect involved in the imaging process of holographic displays. In the application of near-eye displays, it generates physical limits that constrain the field of view of the devices. In this contribution, we evaluate experimentally an alternative approach for a holographic display based mainly on refraction. This unconventional imaging process, based on sparse aperture imaging, could lead to integrated near-eye displays through retinal projection, with a larger field of view. We introduce for this evaluation an in-house holographic printer that allows the recording of holographic pixel distributions at a microscopic scale. We show how these microholograms can encode angular information that overcomes the diffraction limit and could alleviate the space bandwidth constraint usually associated with conventional display design.

Topics & Concepts

HolographyHolographic displayOpticsComputer scienceCoded aperturePixelIntegral imagingExit pupilDiffractionStereo displayComputer visionPhysicsComputer graphics (images)Artificial intelligenceDetectorPupilImage (mathematics)Advanced Optical Imaging TechnologiesVirtual Reality Applications and ImpactsTactile and Sensory Interactions
Sparse holographic imaging for an integrated augmented reality near-eye display | Litcius