Evaluation of power spectra in the distribution of depolarization degree of laser radiation scattered by the tissue of the vitreous body of the eye for diagnosing the prescription of death coming

V. T. Bachinskyi; D. T. Popovych; O. Ya. Wanchuliak

doi:10.1117/12.920776

22 November 2011 Evaluation of power spectra in the distribution of depolarization degree of laser radiation scattered by the tissue of the vitreous body of the eye for diagnosing the prescription of death coming

V. T. Bachinskyi, D. T. Popovych, O. Ya. Wanchuliak

Author Affiliations +

Proceedings Volume 8338, Tenth International Conference on Correlation Optics; 83381P (2011) https://doi.org/10.1117/12.920776
Event: Correlation Optics 2011, 2011, Chernivsti, Ukraine

Abstract

A new approach for monitoring temporal changes in the optical anisotropy of the human eye tissue after death was proposed. The basis of the research study assigned degree of depolarization of laser radiation, converted collagen networks vitreous of the eye.The optical model of polycrystalline networks of vitreous body histological sections is suggested. The results of investigating the interrelation between the values of statistical (statistical moments of the 1^st-4^th order), correlation (correlation area, asymmetry coefficient and autocorrelation function excess) and fractal (dispersion of logarithmic dependencies of power spectra) parameters are presented. They characterize the coordinate distributions of phase shifts between the orthogonal components of the amplitude in the points of laser images of histological sections of vitreous body and temporal dynamics of optical anisotropy of this biological object. The diagnostic criteria of death coming prescription are determined.

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V. T. Bachinskyi, D. T. Popovych, and O. Ya. Wanchuliak "Evaluation of power spectra in the distribution of depolarization degree of laser radiation scattered by the tissue of the vitreous body of the eye for diagnosing the prescription of death coming", Proc. SPIE 8338, Tenth International Conference on Correlation Optics, 83381P (22 November 2011); https://doi.org/10.1117/12.920776

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