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Wide-field mid-infrared single-photon upconversion imaging

Kun Huang (), Jianan Fang, Ming Yan, E Wu and Heping Zeng ()
Additional contact information
Kun Huang: East China Normal University
Jianan Fang: East China Normal University
Ming Yan: East China Normal University
E Wu: East China Normal University
Heping Zeng: East China Normal University

Nature Communications, 2022, vol. 13, issue 1, 1-9

Abstract: Abstract Frequency upconversion technique, where the infrared signal is nonlinearly translated into the visible band to leverage the silicon sensors, offers a promising alternation for the mid-infrared (MIR) imaging. However, the intrinsic field of view (FOV) is typically limited by the phase-matching condition, thus imposing a remaining challenge to promote subsequent applications. Here, we demonstrate a wide-field upconversion imaging based on the aperiodic quasi-phase-matching configuration. The acceptance angle is significantly expanded to about 30°, over tenfold larger than that with the periodical poling crystal. The extended FOV is realized in one shot without the need of parameter scanning or post-processing. Consequently, a fast snapshot allows to facilitate high-speed imaging at a frame rate up to 216 kHz. Alternatively, single-photon imaging at room temperature is permitted due to the substantially suppressed background noise by the spectro-temporal filtering. Furthermore, we have implemented high-resolution time-of-flight 3D imaging based on the picosecond optical gating. These presented MIR imaging features with wide field, fast speed, and high sensitivity might stimulate immediate applications, such as non-destructive defect inspection, in-vivo biomedical examination, and high-speed volumetric tomography.

Date: 2022
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DOI: 10.1038/s41467-022-28716-8

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