Imitation modeling of Monte Carlo for the study of distribution of the polarized light in biological material

Authors

  • R. U. Rovyra Vinnytsia National Technical University, Universidad Península de Santa Elena — Santa Elena, Ecuador
  • S. V. Pavlov Vinnytsia National Technical University

Keywords:

polarization, dispersions, Monte Carlo, visualization of biomaterial

Abstract

Monte Carlo methods provide a flexible alternative solutions photon transport in scattering media, when there are no analytical solutions, or they are too complicated. Few studies so far have included the polarization state of light and changes in scattering in their codes of Monte Carlo simulation. In this article, it is presented an algorithm for modeling photon transport in biological tissue based on tracking the direction of the electric field in each scattering event.

Author Biographies

R. U. Rovyra, Vinnytsia National Technical University, Universidad Península de Santa Elena — Santa Elena, Ecuador

Post-Graduate Student of the Chair of General Physics and Photonics

S. V. Pavlov, Vinnytsia National Technical University

Dr. Sc.(Eng.), Professor, Head of the Chair of General Physics and Photonics

References

1. Enpolarization of light by scattering media / Sorrentini J., Zerrad M., Soriano G., Amra C. // Opt. Express. — 2011. — vol. 19, № 22. — Рp. 21313—21320.
2. Imaging superficial tissues with polarized light/ Jacques S. L., Roman J. R., Lee K. // Lasers Surg. Med. — 2000. — vol. 26, № 2. — Рp. 119—129.
3. Deep subsurface imaging in tissues using spectral and polarization filtering / Demos S., Radousky H., Alfano R. // Opt Express. — 2000. — vol. 7, № 1. — Рp. 23—28.
4. Polarization studies in multiply scattering chiral media / Vitkin I. A., Hoskinson E. // Opt. Engineering. — 2000. — vol. 39, № 2. — Рp. 353—362.
5. Two-View Geometry Estimation Using the Rodrigues Rotation Formula / Sorgi L. // 18th IEEE International Conference on image processing [ICIP — 2011]. — Рp. 1009—1012.
6. Light scattering by small particles/ Van de Hulst H. C.// Courier Dover Publications. — 2012.
7. A Monte Carlo model of light propagation in tissue / Prahl S. A. Keijzer M., Jacques S. L., Welch A. J. // Dosim. Laser Radiat. Med. Biol. — 1989. — vol. 5. — Рp. 102—11.
8. MCML—Monte Carlo modeling of light transport in multi-layered tissues / Wang L., Jacques S. L., Zheng L. // Comput. Methods Programs Biomed. — 1995. — vol. 47. № 2. — Рp. 131—146

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How to Cite

[1]
R. U. Rovyra and S. V. Pavlov, “Imitation modeling of Monte Carlo for the study of distribution of the polarized light in biological material”, Опт-ел. інф-енерг. техн., vol. 28, no. 2, pp. 56–61, Feb. 2015.

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Section

Biomedical Optical And Electronic Systems And Devices

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