近年来，人工智能（AI）与超构光学（Meta-Optics）之间的融合正在带来前所未有的技术突破，尤其是在超构透镜（Metalenses）成像应用方面。超构光学元件利用纳米级结构精确控制光的传播，传统光学元件在此方面的表达能力显得相对不足。随着复杂的 ...

在当今科技飞速发展的时代，人工智能（AI）与超构光学（Meta-Optics）的结合正在引领一场前所未有的技术变革。这种革命性的融合，不仅提升了成像质量，也有潜力改变医疗、显微镜以及消费电子等领域的应用方式。近期，由俄罗斯萨马拉国立研究大学与俄罗斯人工智能研究院的研究团队所发表的论文，深入探讨了人工智能驱动的超构透镜（Metalenses）的最新进展，为该领域的未来指明了方向。

More information: Bowen Liu et al, Metalenses phase characterization by multi-distance phase retrieval, Light: Science & Applications (2024). DOI: 10.1038/s41377-024-01530-1 Provided by Chinese ...

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Comparison of a conventional and a metalens. (Image: Rho Research Lab, POSTECH) Since these metalenses are ultrathin, flat surfaces, they have attracted tremendous attention because they can overcome ...

One of the most prominent applications of meta-optics is the development of metalenses. Metalenses are flat, ultrathin optical components that can perform the same functions as traditional lenses, ...

NILT creates competitive advantages with flat optics in optical applications for 3D sensing, consumer electronics, machine vision, autonomous vehicles, telecommunication, and AR/VR/MR displays; all ...

His team’s studies have also supported the design and fabrication of a 10 x 10 array of metalenses for a high-dimensional quantum entangled optical source chip. Kwai Man Luk, another chair ...

A promising route to a compact microscope is to use metalenses, which consist of subwavelength nanostructures with powerful ...