Comparison of two Monte Carlo models of propagation of coherent polarized light in turbid scattering media

IF 2.9 2区医学 Q2 BIOCHEMICAL RESEARCH METHODS

Biomedical optics express Pub Date : 2014-03-04 DOI:10.1117/12.2038825

A. Doronin, A. Radosevich, V. Backman, I. Meglinski

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引用次数: 3

Abstract

Modeling the propagation of coherent polarized light through a turbid scattering medium using the Monte Carlo method enables better understanding of the peculiarities of image/signal formation in modern optical diagnostic techniques, such as optical coherence tomography (OCT), coherent/enhanced backscattering, laser speckle imaging and diffusing-wave spectroscopy (DWS). Two major ways of modeling the propagation of coherent polarized light in scattering tissue-like media are currently in use. The first approach is tracking transformations of the electric field along ray propagation. Second one is developed in analogy to the iterative procedure of the solution of Bethe-Salpeter equation. In the current paper we compare these two approaches that have been extensively used in the past for simulation of coherent polarized light propagation in scattering tissue-like media, and quantitative assessment of the enhancement of coherent backscattering of light. In particular we compare the accuracy of each technique with the results obtained in experiments and with the results of known analytical solutions. The advantages and disadvantages of each technique and their further developments are discussed.

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相干偏振光在混浊散射介质中传播的两种蒙特卡罗模型的比较

利用蒙特卡罗方法对相干偏振光在浑浊散射介质中的传播进行建模，可以更好地理解现代光学诊断技术中图像/信号形成的特性，例如光学相干层析成像(OCT)、相干/增强后向散射、激光散斑成像和漫射波光谱(DWS)。目前有两种主要的方法来模拟相干偏振光在散射类组织介质中的传播。第一种方法是沿着射线传播跟踪电场的变换。第二种方法类比于贝特-萨尔彼得方程的迭代求解过程。在本文中，我们比较了过去广泛用于模拟相干偏振光在散射类组织介质中的传播以及定量评估光的相干后向散射增强的两种方法。特别地，我们将每种技术的准确性与实验结果和已知解析解的结果进行比较。讨论了每种技术的优缺点及其进一步发展。

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来源期刊

Biomedical optics express BIOCHEMICAL RESEARCH METHODS-OPTICS

CiteScore

6.80

自引率

11.80%

发文量

633

审稿时长

1 months

期刊介绍： The journal''s scope encompasses fundamental research, technology development, biomedical studies and clinical applications. BOEx focuses on the leading edge topics in the field, including: Tissue optics and spectroscopy Novel microscopies Optical coherence tomography Diffuse and fluorescence tomography Photoacoustic and multimodal imaging Molecular imaging and therapies Nanophotonic biosensing Optical biophysics/photobiology Microfluidic optical devices Vision research.