Ultra-compact snapshot spectral light-field imaging

Xia Hua; Yujie Wang; Shuming Wang; Xiujuan Zou; You Zhou; Lin Li; Feng Yan; Xun Cao; Shumin Xiao; Din Ping Tsai; Jiecai Han; Zhenlin Wang; Shining Zhu

doi:10.1038/s41467-022-30439-9

Ultra-compact snapshot spectral light-field imaging

Xia Hua
, Yujie Wang
, Shuming Wang^*
, Xiujuan Zou
, You Zhou
, Lin Li
, Feng Yan
, Xun Cao^*
, Shumin Xiao^*
, Din Ping Tsai^*
, Jiecai Han
, Zhenlin Wang^*
, Shining Zhu^*

^*Corresponding author for this work

Institute for Advanced Study in Precision Spectroscopy

Research output: Contribution to journal › Article › peer-review

164 Scopus citations

Abstract

Ideal imaging, which is constantly pursued, requires the collection of all kinds of optical information of the objects in view, such as three-dimensional spatial information (3D) including the planar distribution and depth, and the colors, i.e., spectral information (1D). Although three-dimensional spatial imaging and spectral imaging have individually evolved rapidly, their straightforward combination is a cumbersome system, severely hindering the practical applications of four-dimensional (4D) imaging. Here, we demonstrate the ultra-compact spectral light-field imaging (SLIM) by using a transversely dispersive metalens array and a monochrome imaging sensor. With only one snapshot, the SLIM presents advanced imaging with a 4 nm spectral resolution and near-diffraction-limit spatial resolution. Consequently, visually indistinguishable objects and materials can be discriminated through SLIM, which promotes significant progress towards ideal plenoptic imaging.

Original language	English
Article number	2732
Journal	Nature Communications
Volume	13
Issue number	1
DOIs	https://doi.org/10.1038/s41467-022-30439-9
State	Published - Dec 2022

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title = "Ultra-compact snapshot spectral light-field imaging",

abstract = "Ideal imaging, which is constantly pursued, requires the collection of all kinds of optical information of the objects in view, such as three-dimensional spatial information (3D) including the planar distribution and depth, and the colors, i.e., spectral information (1D). Although three-dimensional spatial imaging and spectral imaging have individually evolved rapidly, their straightforward combination is a cumbersome system, severely hindering the practical applications of four-dimensional (4D) imaging. Here, we demonstrate the ultra-compact spectral light-field imaging (SLIM) by using a transversely dispersive metalens array and a monochrome imaging sensor. With only one snapshot, the SLIM presents advanced imaging with a 4 nm spectral resolution and near-diffraction-limit spatial resolution. Consequently, visually indistinguishable objects and materials can be discriminated through SLIM, which promotes significant progress towards ideal plenoptic imaging.",

author = "Xia Hua and Yujie Wang and Shuming Wang and Xiujuan Zou and You Zhou and Lin Li and Feng Yan and Xun Cao and Shumin Xiao and Tsai, \{Din Ping\} and Jiecai Han and Zhenlin Wang and Shining Zhu",

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doi = "10.1038/s41467-022-30439-9",

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AU - Hua, Xia

AU - Wang, Yujie

AU - Wang, Shuming

AU - Zou, Xiujuan

AU - Zhou, You

AU - Li, Lin

AU - Yan, Feng

AU - Cao, Xun

AU - Xiao, Shumin

AU - Tsai, Din Ping

AU - Han, Jiecai

AU - Wang, Zhenlin

AU - Zhu, Shining

PY - 2022/12

Y1 - 2022/12

N2 - Ideal imaging, which is constantly pursued, requires the collection of all kinds of optical information of the objects in view, such as three-dimensional spatial information (3D) including the planar distribution and depth, and the colors, i.e., spectral information (1D). Although three-dimensional spatial imaging and spectral imaging have individually evolved rapidly, their straightforward combination is a cumbersome system, severely hindering the practical applications of four-dimensional (4D) imaging. Here, we demonstrate the ultra-compact spectral light-field imaging (SLIM) by using a transversely dispersive metalens array and a monochrome imaging sensor. With only one snapshot, the SLIM presents advanced imaging with a 4 nm spectral resolution and near-diffraction-limit spatial resolution. Consequently, visually indistinguishable objects and materials can be discriminated through SLIM, which promotes significant progress towards ideal plenoptic imaging.

AB - Ideal imaging, which is constantly pursued, requires the collection of all kinds of optical information of the objects in view, such as three-dimensional spatial information (3D) including the planar distribution and depth, and the colors, i.e., spectral information (1D). Although three-dimensional spatial imaging and spectral imaging have individually evolved rapidly, their straightforward combination is a cumbersome system, severely hindering the practical applications of four-dimensional (4D) imaging. Here, we demonstrate the ultra-compact spectral light-field imaging (SLIM) by using a transversely dispersive metalens array and a monochrome imaging sensor. With only one snapshot, the SLIM presents advanced imaging with a 4 nm spectral resolution and near-diffraction-limit spatial resolution. Consequently, visually indistinguishable objects and materials can be discriminated through SLIM, which promotes significant progress towards ideal plenoptic imaging.

UR - https://www.scopus.com/pages/publications/85130288406

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DO - 10.1038/s41467-022-30439-9

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SN - 2041-1723

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JO - Nature Communications

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Ultra-compact snapshot spectral light-field imaging

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