Abstract

Test bar charts hidden in a 5.5-cm-thick 2.5% Intralipid solution were imaged as a function of phantom depth and size with steady-state Fourier and picosecond Kerr–Fourier imaging systems. With time and space gating, a series of 250-μm bars placed in a thick highly scattering medium were resolved at a signal level of ~10⁻¹⁰ of the illumination intensity.

© 1993 Optical Society of America

Two-dimensional Kerr–Fourier imaging of translucent phantoms in thick turbid media

X. Liang, L. Wang, P. P. Ho, and R. R. Alfano
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Three-dimensional temporal image reconstruction of an object hidden in highly scattering media by time-gated optical tomography

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Time-resolved Fourier spectrum and imaging in highly scattering media

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Double-stage picosecond Kerr gate for ballistic time-gated optical imaging in turbid media

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Statistical detection and imaging of objects hidden in turbid media using ballistic photons

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