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Occlusion-capable see-through display without the screen-door effect using a photochromic mask

Minseok Chae, Kiseung Bang, Youngjin Jo, Chanhyung Yoo, Byoungho Lee

2021Optics Letters20 citationsDOI

Abstract

Conventional occlusion-capable see-through display systems have many practical limitations such as the form factor, narrow field of view, screen-door effect, and diffraction of a real scene. In this Letter, we propose an occlusion-capable see-through display using lens arrays and a photochromic plate. By imaging the occlusion mask on the photochromic plate with near-UV light, the visible light transmittance of the plate changes. Since no black matrix lies on the photochromic plate, our system provides a clear real scene view without the grid structure of the pixels and can prevent diffraction defects of the real scene. We also alleviate the drawback of a narrow field of view using the lens arrays for a reduced form factor.

Topics & Concepts

PhotochromismOpticsLight fieldComputer scienceTransmittanceLens (geology)PixelField of viewMaterials scienceComputer visionArtificial intelligencePhysicsNanotechnologyAdvanced Optical Imaging TechnologiesInteractive and Immersive DisplaysOptical Wireless Communication Technologies
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