Nonlinear reconstruction of weak optical diffused images under turbid water

Date: Nov 27, 2019

Forward scattering noise may degrade the imaging resolution and diffuse the image in turbid water. The reconstruction of diffused images hidden by forward scattering noise is crucial for underwater imaging. To overcome the limitation of forward scattering for optical imaging in turbid water, Hongjun Liu’s research team recently proposed a nonlinear image reconstruction technology in their experiment. They experimentally demonstrated the reconstruction of the diffused images under turbid water via signal seeded incoherent modulation instability (MI) in a nonlinear photorefractive crystal. The reconstructed image with high quality and the minimum resolution of 28.51 lp/mm are observed in their experiment. This is the first time, to the best of our knowledge, that a spatial MI effect is used to process underwater weak optical diffused images in the experiment.


(Original research article "Optics Letters Vol. 44, Issue 1, pp. 3502-3505 (2019) https://www.osapublishing.org/ol/fulltext.cfm?uri=ol-44-14-3502&id=415256")


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