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Paper detail

Mathematical modeling in full-field optical coherence elastography

We provide a mathematical analysis of and a numerical framework for full-field optical coherence elastography, which has unique features including micron-scale resolution, real-time processing, and non-invasive imaging. We develop a novel algorithm for transforming volumetric optical images before and after the mechanical solicitation of a sample with sub-cellular resolution into quantitative shear modulus distributions. This has the potential to improve sensitivities and specificities in the biological and clinical applications of optical coherence tomography.

preprint2014arXivOpen access
Habib AmmariElie BretinPierre MillienLaurent SeppecherJin-Keun Seo
math.OC
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Habib AmmariElie BretinPierre MillienLaurent SeppecherJin-Keun Seo

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