Journal
BIOMEDICAL IMAGING AND SENSING CONFERENCE 2021
Volume 11925, Issue -, Pages -Publisher
SPIE-INT SOC OPTICAL ENGINEERING
DOI: 10.1117/12.2615860
Keywords
Monte Carlo simulation; electric field Monte Carlo modeling; turbid media
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This paper presents backscattering Muller matrix calculations for different size of particles based on electric field Monte Carlo simulation, and comparative studies were performed. The results may find important applications in laser tissue interaction.
Understanding the propagating of light in biological tissues have long been an important issue. For this purpose, modeling scattering of light from laser radiation into turbid media has been studied. One of the common modeling tools is Monte Carlo simulation, and Mueller matrix method is a commonly used technique to study birefringence and depolarization properties of biological samples. Based on electric field Monte Carlo simulation in this paper, we present backscattering Muller matrix calculations for different size of particles and performed comparative studies. Our results may find important applications in laser tissue interaction.
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