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Autores principales: Engelberg, Jacob, Mazurski, Ronen, Levy, Uriel
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2502.01087
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author Engelberg, Jacob
Mazurski, Ronen
Levy, Uriel
author_facet Engelberg, Jacob
Mazurski, Ronen
Levy, Uriel
contents Metalenses have become ubiquitous in academic research and have begun to make their transition to industry. However, chromatic aberration still greatly limits the applications of metalenses. Achieving a wide field-of-view (FOV) is another challenge that has been dealt with successfully by using a removed stop, but when combined with broadband spectrum, lateral chromatic aberration severely limits performance. In this paper we tackle this grand challenge and present a comprehensive design methodology for a simultaneously wide-FOV and achromatic metalens which is inspired by the human visual system. As a design example, we present a metalens operating in the near infrared (NIR), with 10% relative spectral bandwidth (807-893nm), focal length of 5mm, F/5, and FOV of +/-20 degrees. In particular, we show how to optimize the stop position, and correct the lateral chromatic aberration, both of which have not been reported in the past. In addition, we evaluate the performance of the metalens using accurate performance metrics, and demonstrate the improvement compared to a chromatic metalens. Our approach paves the way for the design of wide FOV metalenses that can operate over a relatively large bandwidth, effectively contributing to the widespread implementation of metalens science and technology.
format Preprint
id arxiv_https___arxiv_org_abs_2502_01087
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Nature Inspired Design Methodology for a Wide Field of View Achromatic Metalens
Engelberg, Jacob
Mazurski, Ronen
Levy, Uriel
Optics
Metalenses have become ubiquitous in academic research and have begun to make their transition to industry. However, chromatic aberration still greatly limits the applications of metalenses. Achieving a wide field-of-view (FOV) is another challenge that has been dealt with successfully by using a removed stop, but when combined with broadband spectrum, lateral chromatic aberration severely limits performance. In this paper we tackle this grand challenge and present a comprehensive design methodology for a simultaneously wide-FOV and achromatic metalens which is inspired by the human visual system. As a design example, we present a metalens operating in the near infrared (NIR), with 10% relative spectral bandwidth (807-893nm), focal length of 5mm, F/5, and FOV of +/-20 degrees. In particular, we show how to optimize the stop position, and correct the lateral chromatic aberration, both of which have not been reported in the past. In addition, we evaluate the performance of the metalens using accurate performance metrics, and demonstrate the improvement compared to a chromatic metalens. Our approach paves the way for the design of wide FOV metalenses that can operate over a relatively large bandwidth, effectively contributing to the widespread implementation of metalens science and technology.
title Nature Inspired Design Methodology for a Wide Field of View Achromatic Metalens
topic Optics
url https://arxiv.org/abs/2502.01087