Polarization-phase tomography of biological fluids polycrystalline structure

A. V. Dubolazov; O. Ya. Vanchuliak; M. Garazdiuk; M. I. Sidor; A. V. Motrich; S. V. Kostiuk

doi:10.1117/12.2053861

17 December 2013 Polarization-phase tomography of biological fluids polycrystalline structure

A. V. Dubolazov, O. Ya. Vanchuliak, M. Garazdiuk, M. I. Sidor, A. V. Motrich, S. V. Kostiuk

Proceedings Volume 9066, Eleventh International Conference on Correlation Optics; 906620 (2013) https://doi.org/10.1117/12.2053861
Event: Eleventh International Conference on Correlation Optics, 2013, Chernivsti, Ukraine

Abstract

Our research is aimed at designing an experimental method of Fourier’s laser polarization phasometry of the layers of human effusion for an express diagnostics during surgery and a differentiation of the degree of severity (acute - gangrenous) appendectomy by means of statistical, correlation and fractal analysis of the coherent scattered field. A model of generalized optical anisotropy of polycrystal networks of albumin and globulin of the effusion of appendicitis has been suggested and the method of Fourier’s phasometry of linear (a phase shift between the orthogonal components of the laser wave amplitude) and circular (the angle of rotation of the polarization plane) birefringence with a spatial-frequency selection of the coordinate distributions for the differentiation of acute and gangrenous conditions have been analytically substantiated. Comparative studies of the efficacy of the methods of direct mapping of phase distributions and Fourier’s phasometry of a laser radiation field transformed by the dendritic and spherolitic networks of albumin and globulin of the layers of effusion of appendicitis on the basis of complex statistical, correlation and fractal analysis of the structure of phase maps.

Citation Download Citation

A. V. Dubolazov, O. Ya. Vanchuliak, M. Garazdiuk, M. I. Sidor, A. V. Motrich, and S. V. Kostiuk "Polarization-phase tomography of biological fluids polycrystalline structure", Proc. SPIE 9066, Eleventh International Conference on Correlation Optics, 906620 (17 December 2013); https://doi.org/10.1117/12.2053861

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