Abstract
Recent advances in metasurface lenses (metalenses) have shown great potential for opening a new era in compact imaging, photography, light detection, and ranging (LiDAR) and virtual reality/augmented reality applications. However, the fundamental trade-off between broadband focusing efficiency and operating bandwidth limits the performance of broadband metalenses, resulting in chromatic aberration, angular aberration, and a relatively low efficiency. A deep-learning-based image restoration framework is proposed to overcome these limitations and realize end-to-end metalens imaging, thereby achieving aberration-free full-color imaging for mass-produced metalenses with 10 mm diameter. Neural-network-assisted metalens imaging achieved a high resolution comparable to that of the ground truth image.
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Seo, J., Jo, J., Kim, J., Kang, J., Kang, C., Moon, S. W., … Chung, H. (2024). Deep-learning-driven end-to-end metalens imaging. Advanced Photonics, 6(6). https://doi.org/10.1117/1.AP.6.6.066002
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