High-resolution Fourier lens utilizing transformation materials

Yunyun Lai; Wenxiu Dong; Jin Hu

doi:10.1364/AO.543205

High-resolution Fourier lens utilizing transformation materials

Yunyun Lai, Wenxiu Dong, Jin Hu^*

^*此作品的通讯作者

信息与电子学院

科研成果: 期刊稿件 › 文章 › 同行评审

摘要

A large-bandwidth, high-resolution Fourier transform lens is proposed based on transformation optics, where the conformal space mapping is approximately obtained by adjusting the in-plane principal stretches to be equivalent step by step. The output surface of a Luneburg lens is deformed into a planar configuration through this transformation, while maintaining its relaxed dependence on paraxial approximations for optical Fourier transform. The numerical simulation results show that the smallest angular separation of two incident plane waves can be improved up to 60% compared to conventional lenses in the given conditions, confirming that the proposed lens has enhanced focus separation as well as Fourier transform resolution.

源语言	英语
页（从-至）	1633-1638
页数	6
期刊	Applied Optics
卷	64
期	7
DOI	https://doi.org/10.1364/AO.543205
出版状态	已出版 - 1 3月 2025

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Lai, Y., Dong, W., & Hu, J. (2025). High-resolution Fourier lens utilizing transformation materials. Applied Optics, 64(7), 1633-1638. https://doi.org/10.1364/AO.543205

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author = "Yunyun Lai and Wenxiu Dong and Jin Hu",

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N2 - A large-bandwidth, high-resolution Fourier transform lens is proposed based on transformation optics, where the conformal space mapping is approximately obtained by adjusting the in-plane principal stretches to be equivalent step by step. The output surface of a Luneburg lens is deformed into a planar configuration through this transformation, while maintaining its relaxed dependence on paraxial approximations for optical Fourier transform. The numerical simulation results show that the smallest angular separation of two incident plane waves can be improved up to 60% compared to conventional lenses in the given conditions, confirming that the proposed lens has enhanced focus separation as well as Fourier transform resolution.

AB - A large-bandwidth, high-resolution Fourier transform lens is proposed based on transformation optics, where the conformal space mapping is approximately obtained by adjusting the in-plane principal stretches to be equivalent step by step. The output surface of a Luneburg lens is deformed into a planar configuration through this transformation, while maintaining its relaxed dependence on paraxial approximations for optical Fourier transform. The numerical simulation results show that the smallest angular separation of two incident plane waves can be improved up to 60% compared to conventional lenses in the given conditions, confirming that the proposed lens has enhanced focus separation as well as Fourier transform resolution.

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High-resolution Fourier lens utilizing transformation materials

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