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Hauptverfasser: Zhang, Qiangbo, Yu, Zeqing, Wang, Mengguang, Liu, Yiyang, Zhang, Changwei, Wang, Chang, Zheng, Zhenrong
Format: Preprint
Veröffentlicht: 2024
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Online-Zugang:https://arxiv.org/abs/2404.03173
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author Zhang, Qiangbo
Yu, Zeqing
Wang, Mengguang
Liu, Yiyang
Zhang, Changwei
Wang, Chang
Zheng, Zhenrong
author_facet Zhang, Qiangbo
Yu, Zeqing
Wang, Mengguang
Liu, Yiyang
Zhang, Changwei
Wang, Chang
Zheng, Zhenrong
contents Single metalenses are limited by their physical constraints, precluding themselves from achieving high numerical aperture across a wide visible spectral band in large-aperture applications. A hybrid system that integrates a metalens with a refractive lens can address this issue, yet previous designs lacked sufficient flexibility. Here, by reanalyzing the generalized Snell's law, we introduce a new paradigm for the hybrid metalens design based on differentiable ray tracing. Through joint optimization of the phase distribution of the metalens and refractive lens parameters, our system achieves achromatic performance within the broad spectral range of 440-700 nm, with an aperture of 1 cm and an f-number of 1.4. Owing to the differentiable nature of the proposed system, it can be seamlessly integrated as the optical front-end into any differentiable computational imaging system. Our system offers unprecedented opportunities for the advancement of metalenses in innovative optical design and computational imaging domains.
format Preprint
id arxiv_https___arxiv_org_abs_2404_03173
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Centimeter-Scale Achromatic Hybrid Metalens Design: A New Paradigm Based on Differentiable Ray Tracing in the Visible Spectrum
Zhang, Qiangbo
Yu, Zeqing
Wang, Mengguang
Liu, Yiyang
Zhang, Changwei
Wang, Chang
Zheng, Zhenrong
Optics
Applied Physics
Single metalenses are limited by their physical constraints, precluding themselves from achieving high numerical aperture across a wide visible spectral band in large-aperture applications. A hybrid system that integrates a metalens with a refractive lens can address this issue, yet previous designs lacked sufficient flexibility. Here, by reanalyzing the generalized Snell's law, we introduce a new paradigm for the hybrid metalens design based on differentiable ray tracing. Through joint optimization of the phase distribution of the metalens and refractive lens parameters, our system achieves achromatic performance within the broad spectral range of 440-700 nm, with an aperture of 1 cm and an f-number of 1.4. Owing to the differentiable nature of the proposed system, it can be seamlessly integrated as the optical front-end into any differentiable computational imaging system. Our system offers unprecedented opportunities for the advancement of metalenses in innovative optical design and computational imaging domains.
title Centimeter-Scale Achromatic Hybrid Metalens Design: A New Paradigm Based on Differentiable Ray Tracing in the Visible Spectrum
topic Optics
Applied Physics
url https://arxiv.org/abs/2404.03173