Large Field‐of‐View and Multi‐Color Imaging with GaP Quadratic Metalenses

Metalenses, in order to compete with conventional bulk optics in commercial imaging systems, often require large field of view (FOV) and broadband operation simultaneously. However, the strong chromatic and coma aberrations present in common metalens designs have so far limited their widespread use....

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Veröffentlicht in:	Laser & photonics reviews 2024-01, Vol.18 (1), p.n/a
Hauptverfasser:	Baranikov, Anton V., Khaidarov, Egor, Lassalle, Emmanuel, Eschimese, Damien, Yeo, Joel, Loh, N. Duane, Paniagua‐Dominguez, Ramon, Kuznetsov, Arseniy I.
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Schlagworte:	Broadband chromatic aberrations Color color camera computational imaging Field of view flat‐optics Image quality Imaging techniques multispectral imaging New technology optical metalenses Weight reduction
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creator	Baranikov, Anton V. Khaidarov, Egor Lassalle, Emmanuel Eschimese, Damien Yeo, Joel Loh, N. Duane Paniagua‐Dominguez, Ramon Kuznetsov, Arseniy I.
description	Metalenses, in order to compete with conventional bulk optics in commercial imaging systems, often require large field of view (FOV) and broadband operation simultaneously. However, the strong chromatic and coma aberrations present in common metalens designs have so far limited their widespread use. Stacking of metalenses as one of the possible solutions increases the overall complexity of the optical system and hinders the main benefits of reduced thickness and light weight. To tackle both issues, this study proposes a single‐layer imaging system utilizing a recently developed class of metalenses providing large FOV. Using it, full‐color imaging with a FOV of ≈100∘$\approx 100^{\circ }$ is demonstrated. This approach, empowered by computational imaging techniques, produces high‐quality images, both in terms of color reproduction and sharpness. Suitable for real‐time unpolarized light operation with the standard color filters present in prevalent camera systems, these results might enable a pathway for consumer electronics applications of this emerging technology. A single‐layer metalens solution achieving simultaneously multi‐color and wide field‐of‐view imaging when combined with standard camera color filters is presented, based on a GaP platform. Complemented with computational imaging techniques, state‐of‐the‐art imaging performance is demonstrated. This ultra‐compact solution is compatible with single‐step photolithography fabrication process, making it highly scalable and cost‐effective, and thus suitable for consumer electronics applications.
doi_str_mv	10.1002/lpor.202300553
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This approach, empowered by computational imaging techniques, produces high‐quality images, both in terms of color reproduction and sharpness. Suitable for real‐time unpolarized light operation with the standard color filters present in prevalent camera systems, these results might enable a pathway for consumer electronics applications of this emerging technology. A single‐layer metalens solution achieving simultaneously multi‐color and wide field‐of‐view imaging when combined with standard camera color filters is presented, based on a GaP platform. Complemented with computational imaging techniques, state‐of‐the‐art imaging performance is demonstrated. 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Duane</creatorcontrib><creatorcontrib>Paniagua‐Dominguez, Ramon</creatorcontrib><creatorcontrib>Kuznetsov, Arseniy I.</creatorcontrib><title>Large Field‐of‐View and Multi‐Color Imaging with GaP Quadratic Metalenses</title><title>Laser & photonics reviews</title><description>Metalenses, in order to compete with conventional bulk optics in commercial imaging systems, often require large field of view (FOV) and broadband operation simultaneously. However, the strong chromatic and coma aberrations present in common metalens designs have so far limited their widespread use. Stacking of metalenses as one of the possible solutions increases the overall complexity of the optical system and hinders the main benefits of reduced thickness and light weight. To tackle both issues, this study proposes a single‐layer imaging system utilizing a recently developed class of metalenses providing large FOV. Using it, full‐color imaging with a FOV of ≈100∘$\approx 100^{\circ }$ is demonstrated. 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subjects	Broadband chromatic aberrations Color color camera computational imaging Field of view flat‐optics Image quality Imaging techniques multispectral imaging New technology optical metalenses Weight reduction
title	Large Field‐of‐View and Multi‐Color Imaging with GaP Quadratic Metalenses
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