15 September 2006 Depth-resolved displacement measurement using tilt scanning speckle interferometry
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Proceedings Volume 6341, Speckle06: Speckles, From Grains to Flowers; 634116 (2006) https://doi.org/10.1117/12.695356
Event: Speckle06: Speckles, From Grains to Flowers, 2006, Nimes, France
Abstract
We describe a novel technique that we call Tilt Scanning Interferometry (TSI) to measure depth-resolved structure and displacement fields within semitransparent scattering materials. The method differs significantly from conventional optical coherence tomography in that only one wavelength is used throughout the whole measurement process. Temporal sequences of speckle interferograms are recorded whilst the illumination angle is tilted at a constant rate. Fourier transformation of the resulting three-dimensional (3-D) intensity distribution along the time axis reconstructs the scattering potential within the medium. Repeating the measurements with the object wave at equal and opposite angles about the observation direction results in two 3-D phase-change volumes, the sum of which gives the out-of-plane-sensitive phase volume and the difference between which gives the in-plane phase volume. From these phase-change volumes the in-plane and out-of-plane depth-resolved displacement fields are obtained. The theoretical framework for the technique is outlined and results from proof-of-principle experiments involving a semitransparent beam undergoing bending are presented.
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Jonathan M. Huntley, Jonathan M. Huntley, Pablo D. Ruiz, Pablo D. Ruiz, } "Depth-resolved displacement measurement using tilt scanning speckle interferometry", Proc. SPIE 6341, Speckle06: Speckles, From Grains to Flowers, 634116 (15 September 2006); doi: 10.1117/12.695356; https://doi.org/10.1117/12.695356
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