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An optic to replace space and its application towards ultra-thin imaging systems

Author

Listed:
  • Orad Reshef

    (University of Ottawa)

  • Michael P. DelMastro

    (University of Ottawa)

  • Katherine K. M. Bearne

    (University of Ottawa)

  • Ali H. Alhulaymi

    (University of Ottawa)

  • Lambert Giner

    (University of Ottawa
    Université de Moncton)

  • Robert W. Boyd

    (University of Ottawa
    University of Ottawa
    University of Rochester)

  • Jeff S. Lundeen

    (University of Ottawa)

Abstract

Centuries of effort to improve imaging has focused on perfecting and combining lenses to obtain better optical performance and new functionalities. The arrival of nanotechnology has brought to this effort engineered surfaces called metalenses, which promise to make imaging devices more compact. However, unaddressed by this promise is the space between the lenses, which is crucial for image formation but takes up by far the most room in imaging systems. Here, we address this issue by presenting the concept of and experimentally demonstrating an optical ‘spaceplate’, an optic that effectively propagates light for a distance that can be considerably longer than the plate thickness. Such an optic would shrink future imaging systems, opening the possibility for ultra-thin monolithic cameras. More broadly, a spaceplate can be applied to miniaturize important devices that implicitly manipulate the spatial profile of light, for example, solar concentrators, collimators for light sources, integrated optical components, and spectrometers.

Suggested Citation

  • Orad Reshef & Michael P. DelMastro & Katherine K. M. Bearne & Ali H. Alhulaymi & Lambert Giner & Robert W. Boyd & Jeff S. Lundeen, 2021. "An optic to replace space and its application towards ultra-thin imaging systems," Nature Communications, Nature, vol. 12(1), pages 1-8, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-23358-8
    DOI: 10.1038/s41467-021-23358-8
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    Cited by:

    1. Corey A. Richards & Christian R. Ocier & Dajie Xie & Haibo Gao & Taylor Robertson & Lynford L. Goddard & Rasmus E. Christiansen & David G. Cahill & Paul V. Braun, 2023. "Hybrid achromatic microlenses with high numerical apertures and focusing efficiencies across the visible," Nature Communications, Nature, vol. 14(1), pages 1-11, December.

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