Non-Line-of-Sight Full-Stokes Polarimetric Imaging with Solution-Processed Metagratings and Shallow Neural Networks

Weng, Xiaojing; Feng, Ji; Perry, Altai; Vuong, Luat T.

doi:10.1021/acsphotonics.3c00291

Cited by 2 publications

(1 citation statement)

References 60 publications

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“…Furthermore, this technology can be extended to detect both spectral and polarization information in a single snapshot by changing the shape and geometry of the scatterers. Moreover, it may, in fact, be possible to enhance imaging while adding spectroscopy functionality by merely adding the BioDE to the optical path based on recent progress of imaging techniques via scattering media. − We, therefore, anticipate a wide range of applications enabled by high-performance mobile spectroscopy, ranging from accurate object detection and recognition on mobile platforms, metasensing with wearables, to consumer-level material characteristics and inspection in food, cosmetics and health products.…”

Section: Discussionmentioning

confidence: 99%

Bioinspired Nanophotonic Angle-Independent and Ultralarge Light Dispersion Allowing Simultaneous Near-Infrared-Spectroscopy and Visible-Imaging

Assumpcao,

Siddique,

Kim

et al. 2024

ACS Photonics

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High-performance optical spectroscopy integrated into hand-held platforms, especially smartphones, is vital for numerous consumer applications. However, optical spectrometers pose a challenge for miniaturization due to the fundamental limitations of small-and angle-dependent light dispersion. We introduce a new bioinspired light dispersion technology combining disordered scattering nanostructures with ordered Bragg resonances to achieve an ultralarge and angle-independent dispersion. We demonstrate an ultracompact spectrometer using the bioinspired dispersive element enabling simultaneous wide-angle visible imaging and near-infrared spectroscopy on a single conventional complementary metal-oxide-semiconductor image sensor. This approach reduces dispersion-based spectrometer device thickness or total track length below 5 mm with an angular tolerance of 30°, sub-5 nm spectral resolution, and 200 nm bandwidth, enabling hand-held and smartphone-integrated spectroscopy and opening up a new way to achieve high-performance mobile sensing and detection.

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Section: Discussionmentioning

confidence: 99%

Bioinspired Nanophotonic Angle-Independent and Ultralarge Light Dispersion Allowing Simultaneous Near-Infrared-Spectroscopy and Visible-Imaging

Assumpcao,

Siddique,

Kim

et al. 2024

ACS Photonics

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Nonlinear optical encoding enabled by recurrent linear scattering

Xia,

Kim,

Eliezer

et al. 2024

Nat. Photon.

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Optical information processing and computing can potentially offer enhanced performance, scalability and energy efficiency. However, achieving nonlinearity—a critical component of computation—remains challenging in the optical domain. Here we introduce a design that leverages a multiple-scattering cavity to passively induce optical nonlinear random mapping with a continuous-wave laser at a low power. Each scattering event effectively mixes information from different areas of a spatial light modulator, resulting in a highly nonlinear mapping between the input data and output pattern. We demonstrate that our design retains vital information even when the readout dimensionality is reduced, thereby enabling optical data compression. This capability allows our optical platforms to offer efficient optical information processing solutions across applications. We demonstrate our design’s efficacy across tasks, including classification, image reconstruction, keypoint detection and object detection, all of which are achieved through optical data compression combined with a digital decoder. In particular, high performance at extreme compression ratios is observed in real-time pedestrian detection. Our findings open pathways for novel algorithms and unconventional architectural designs for optical computing.

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Non-Line-of-Sight Full-Stokes Polarimetric Imaging with Solution-Processed Metagratings and Shallow Neural Networks

Cited by 2 publications

References 60 publications

Bioinspired Nanophotonic Angle-Independent and Ultralarge Light Dispersion Allowing Simultaneous Near-Infrared-Spectroscopy and Visible-Imaging

Bioinspired Nanophotonic Angle-Independent and Ultralarge Light Dispersion Allowing Simultaneous Near-Infrared-Spectroscopy and Visible-Imaging

Nonlinear optical encoding enabled by recurrent linear scattering

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