Y. A. Ushenko,1 A. V. Dubolazov,1 A. P. Angelsky,1 M. I. Sidor,1 G. B. Bodnar,2 G. Koval,2 N. I. Zabolotna,3 A. Smolarz,4 M. Sh. Junisbekov5
1Yuriy Fedkovych Chernivtsi National Univ. (Ukraine) 2Bukovinian State Medical Univ. (Ukraine) 3Vinnytsia National Technical Univ. (Ukraine) 4Politechnika Lubelska (Poland) 5Taraz State Univ. (Kazakhstan)
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The present work is devoted to investigation of mechanisms of optical anisotropy of biological tissues polycrystalline networks and laser polarization fluorescence. The model of complex optical anisotropy, which takes into account both linear and circular birefringence, as well as linear and circular dichroism of fibrillar networks of histological sections of women reproductive sphere is proposed. The data of statistical, correlation and fractal processing of coordinate distributions of laser polarization fluorescence is provided. The technique of azimuthally invariant Mueller-matrix mapping of laser polarization fluorescence of protein networks in the tasks of differentiation of benign and malignant tumors of uterus wall is elaborated.
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Y. A. Ushenko, A. V. Dubolazov, A. P. Angelsky, M. I. Sidor, G. B. Bodnar, G. Koval, N. I. Zabolotna, A. Smolarz, M. Sh. Junisbekov, "Laser polarization fluorescence of the networks of optically anisotropic biological crystals," Proc. SPIE 8698, Optical Fibers and Their Applications 2012, 869809 (11 January 2013); https://doi.org/10.1117/12.2019350