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Compact Long-Range Single-Photon Underwater Lidar With High Spatial–Temporal Resolution | IEEE Journals & Magazine | IEEE Xplore

Compact Long-Range Single-Photon Underwater Lidar With High Spatial–Temporal Resolution


Abstract:

Oceanic lidar has emerged as a strong technology for oceanic 3-D remote sensing. However, most existing oceanic lidars are bulky and high-power consumption and thus diffi...Show More

Abstract:

Oceanic lidar has emerged as a strong technology for oceanic 3-D remote sensing. However, most existing oceanic lidars are bulky and high-power consumption and thus difficult to enable underwater operation. Here, we present a compact single-photon lidar system for long-range underwater measurement. A single-photon detector was adopted to achieve a high signal-to-noise ratio. Benefiting from the single-photon sensitivity in detection, long-range active detection was realized with a low pulse energy laser at 1~\mu \text{J} and a small-aperture coupler at 12 mm. Moreover, a narrow linewidth picosecond fiber laser with high repetition rate was employed to guarantee a high spatial resolution and high update rate. A fiber-connected configuration was specially designed for the miniaturized and robust structure in an optical receiver. In an experimental demonstration, the profile of backscattered signal from clean water was obtained over 70 m with high spatial–temporal resolution to demonstrate the capability of this lidar system. The maximum detection distance of the single-photon lidar reaches \sim 3.6/ K_{\mathrm {d}} ( K_{\mathrm {d}} is the diffuse attenuation coefficient) for waterbody and up to 5.5/ K_{\mathrm {d}} for a hard target. Furthermore, it exhibits a high update-rate capability and realizes the localization and quantification of underwater bubbles up to 26 m away at a high update rate of 100 Hz. These results indicate its potential in a variety of applications, including remote sensing of marine biogeochemical parameters, the quantification of seabed gas emissions, and long-range underwater imaging.
Published in: IEEE Geoscience and Remote Sensing Letters ( Volume: 20)
Article Sequence Number: 1501905
Date of Publication: 09 May 2023

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