Infoscience

Journal article

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, realtime processing, and noninvasive imaging. We develop a novel algorithm for transforming volumetric optical images before and after the mechanical solicitation of a sample with subcellular 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. © by SIAM.

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    Record created on 2016-01-04, modified on 2017-09-23

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