Scientific Reports (Aug 2020)

Single shot multispectral multidimensional imaging using chaotic waves

  • Vijayakumar Anand,
  • Soon Hock Ng,
  • Jovan Maksimovic,
  • Denver Linklater,
  • Tomas Katkus,
  • Elena P. Ivanova,
  • Saulius Juodkazis

DOI
https://doi.org/10.1038/s41598-020-70849-7
Journal volume & issue
Vol. 10, no. 1
pp. 1 – 13

Abstract

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Abstract Multispectral imaging technology is a valuable scientific tool for various applications in astronomy, remote sensing, molecular fingerprinting, and fluorescence imaging. In this study, we demonstrate a single camera shot, lensless, interferenceless, motionless, non-scanning, space, spectrum, and time resolved five-dimensional incoherent imaging technique using tailored chaotic waves with quasi-random intensity and phase distributions. Chaotic waves can distinctly encode spatial and spectral information of an object in single self-interference intensity distribution. In this study, a tailored chaotic wave with a nearly pure phase function and lowest correlation noise is generated using a quasi-random array of pinholes. A unique sequence of signal processing techniques is applied to extract all possible spatial and spectral channels with the least entropy. The depth-wavelength reciprocity is exploited to see colour from depth and depth from colour and the physics of beam propagation is exploited to see at one depth by calibrating at another.