首页|Highly Efficient Broadband Achromatic Microlens Design Based on Low-Dispersion Materials

Highly Efficient Broadband Achromatic Microlens Design Based on Low-Dispersion Materials

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Metalenses with achromatic performance offer a new opportunity for high-quality imaging with an ultra-compact configuration;however,they suffer from complex fabrication processes and low focusing effi-ciency.In this study,we propose an efficient design method for achromatic microlenses on a wavelength scale using materials with low dispersion,an adequately designed convex surface,and a thickness profile distribution.By taking into account the absolute chromatic aberration,relative focal length shift(FLS),and numerical aperture(NA),microlens with a certain focal length can be realized through our realized map of geometric features.Accordingly,the designed achromatic microlenses with low-dispersion fused silica were fabricated using a focused ion beam,and precise surface profiles were obtained.The fabricated microlenses exhibited a high average focusing efficiency of 65%at visible wavelengths of 410-680 nm and excellent achromatic capability via white light imaging.Moreover,the design exhibited the advan-tages of being polarization-insensitive and near-diffraction-limited.These results demonstrate the effec-tiveness of our proposed achromatic microlens design approach,which expands the prospects of miniaturized optics such as virtual and augmented reality,ultracompact microscopes,and biological endoscopy.

Broadband achromatic focusingMetamaterialsLow dispersion materialsVisible wavelengthMicrolenses

Xueqian Wang、Chuanbao Liu、Feilou Wang、Weijia Luo、Chengdong Tao、Yuxuan Hou、Lijie Qiao、Ji Zhou、Jingbo Sun、Yang Bai

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Beijing Advanced Innovation Center for Materials Genome Engineering,Institute for Advanced Materials and Technology,University of Science and Technology Beijing,Beijing 100083,China

School of Materials and Engineering,University of Science and Technology Beijing,Beijing 100083,China

State Key Laboratory of New Ceramics and Fine Processing,School of Materials Science and Engineering,Tsinghua University,Beijing 100084,China

National Key Research and Development Program of ChinaNational Natural Science Foundation of ChinaNational Natural Science Foundation of ChinaBeijing Municipal Science and Technology Project

2022YFB38060005232520811974203Z191100004819002

2024

10.1016/j.eng.2023.08.023

工程(英文)

工程(英文)

CSTPCDEI
ISSN:2095-8099
年,卷(期):2024.38(7)