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An integrated imaging sensor for aberration-corrected 3D photography

Author

Listed:
  • Jiamin Wu

    (Tsinghua University
    Tsinghua University
    Tsinghua University)

  • Yuduo Guo

    (Tsinghua University
    Tsinghua University)

  • Chao Deng

    (Tsinghua University
    Tsinghua University)

  • Anke Zhang

    (Tsinghua University
    Tsinghua University)

  • Hui Qiao

    (Tsinghua University
    Tsinghua University)

  • Zhi Lu

    (Tsinghua University
    Tsinghua University)

  • Jiachen Xie

    (Tsinghua University
    Tsinghua University)

  • Lu Fang

    (Tsinghua University
    Tsinghua University
    Tsinghua University)

  • Qionghai Dai

    (Tsinghua University
    Tsinghua University
    Tsinghua University)

Abstract

Planar digital image sensors facilitate broad applications in a wide range of areas1–5, and the number of pixels has scaled up rapidly in recent years2,6. However, the practical performance of imaging systems is fundamentally limited by spatially nonuniform optical aberrations originating from imperfect lenses or environmental disturbances7,8. Here we propose an integrated scanning light-field imaging sensor, termed a meta-imaging sensor, to achieve high-speed aberration-corrected three-dimensional photography for universal applications without additional hardware modifications. Instead of directly detecting a two-dimensional intensity projection, the meta-imaging sensor captures extra-fine four-dimensional light-field distributions through a vibrating coded microlens array, enabling flexible and precise synthesis of complex-field-modulated images in post-processing. Using the sensor, we achieve high-performance photography up to a gigapixel with a single spherical lens without a data prior, leading to orders-of-magnitude reductions in system capacity and costs for optical imaging. Even in the presence of dynamic atmosphere turbulence, the meta-imaging sensor enables multisite aberration correction across 1,000 arcseconds on an 80-centimetre ground-based telescope without reducing the acquisition speed, paving the way for high-resolution synoptic sky surveys. Moreover, high-density accurate depth maps can be retrieved simultaneously, facilitating diverse applications from autonomous driving to industrial inspections.

Suggested Citation

  • Jiamin Wu & Yuduo Guo & Chao Deng & Anke Zhang & Hui Qiao & Zhi Lu & Jiachen Xie & Lu Fang & Qionghai Dai, 2022. "An integrated imaging sensor for aberration-corrected 3D photography," Nature, Nature, vol. 612(7938), pages 62-71, December.
  • Handle: RePEc:nat:nature:v:612:y:2022:i:7938:d:10.1038_s41586-022-05306-8
    DOI: 10.1038/s41586-022-05306-8
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    Cited by:

    1. Yuanlong Zhang & Xiaofei Song & Jiachen Xie & Jing Hu & Jiawei Chen & Xiang Li & Haiyu Zhang & Qiqun Zhou & Lekang Yuan & Chui Kong & Yibing Shen & Jiamin Wu & Lu Fang & Qionghai Dai, 2023. "Large depth-of-field ultra-compact microscope by progressive optimization and deep learning," Nature Communications, Nature, vol. 14(1), pages 1-15, December.

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