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High-resolution mid-infrared single-photon upconversion ranging

Shuhong Jiang, Kun Huang, Tingting Yu, Jian‐an Fang, Ben Sun, Yan Liang, Qiang Hao, E Wu, Ming Yan, Heping Zeng

2024Photonics Research23 citationsDOIOpen Access PDF

Abstract

Single-photon laser ranging has widespread applications in remote sensing and target recognition. However, highly sensitive light detection and ranging (lidar) has long been restricted in the visible or near-infrared bands. An appealing quest is to extend the operation wavelength into the mid-infrared (MIR) region, which calls for an infrared photon-counting system at high detection sensitivity and precise temporal resolution. Here, we devise and demonstrate an MIR upconversion lidar based on nonlinear asynchronous optical sampling. Specifically, the infrared probe is interrogated in a nonlinear crystal by a train of pump pulses at a slightly different repetition rate, which favors temporal optical scanning at a picosecond timing resolution and a kilohertz refreshing rate over ∼50 ns. Moreover, the cross-correlation upconversion trace is temporally stretched by a factor of 2×10 4 , which can thus be recorded by a low-bandwidth silicon detector. In combination with the time-correlated photon-counting technique, the achieved effective resolution is about two orders of magnitude better than the timing jitter of the detector itself, which facilitates a ranging precision of 4 μm under a low detected flux of 8×10 −5 photons per pulse. The presented MIR time-of-flight range finder is featured with single-photon sensitivity and high positioning resolution, which would be particularly useful in infrared sensing and imaging in photon-starved scenarios.

Topics & Concepts

Photon upconversionRangingOpticsMaterials scienceInfraredPhotonResolution (logic)Near-infrared spectroscopyPhoton countingOptoelectronicsRemote sensingPhysicsLaserGeologyComputer scienceTelecommunicationsArtificial intelligenceAdvanced Optical Sensing TechnologiesSpectroscopy Techniques in Biomedical and Chemical ResearchPhotoacoustic and Ultrasonic Imaging
High-resolution mid-infrared single-photon upconversion ranging | Litcius