IEEE Photonics Journal (Jan 2022)

Weak Incoherent Optical Signal Amplification Based on Modulation Instability for Imaging Through Fog

  • Zhaolu Wang,
  • Yongbin Zhang,
  • Nan Huang,
  • Yuan Liao,
  • Changchang Zhang,
  • Xiaohui Gao,
  • Hongjun Liu

DOI
https://doi.org/10.1109/JPHOT.2022.3158653
Journal volume & issue
Vol. 14, no. 2
pp. 1 – 5

Abstract

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Weak optical signal processing based on nonlinear effects offers new approaches for imaging through scattering media. A novel incoherent optical signal amplification method based on spatial modulation instability is proposed for imaging through fog. We experimentally demonstrated the amplification and recovery of degraded weak incoherent optical image signals after passing through dense fog in a photorefractive crystal. Our experimental results indicate that the intensity profiles of the output images can be redistributed from disordered to ordered when the nonlinear strength exceeds the threshold of incoherent modulation instability, which shows that the partially disordered incoherent probe light intensities are orderly transferred to enhance the signal intensity profiles and the residuals become a uniform background. The restored nonlinear output images with high visibility were observed for a proper optical thickness of fog, and weak optical imaging from undetectable to detectable with relatively poor visibility for a larger optical thickness was also realized in the experiment. This incoherent optical signal amplification method based on modulation instability has a potential application for image recovery in atmospheric scattering imagings.

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