Light backscattering polarization patterns from turbid media: theory and experiment

Raković, Milun J.; Kattawar, George W.; Mehrübeoğlu, Mehrübe; Cameron, Brent D.; Wang, Lihong V.; Rastegar, Sohi; Coté, Gerard L.

doi:10.1364/ao.38.003399

Cited by 179 publications

(134 citation statements)

References 12 publications

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“…Several groups have used Monte Carlo techniques to simulate the steady-state backscattering Mueller matrix of a turbid medium [10,11]. Whereas an indirect method utilizing the symmetry of the backscattering Mueller matrix was used in Ref.…”

Section: Methodsmentioning

confidence: 99%

Propagation of polarized light in turbid media: simulated animation sequences

Yao

Wang

2000

Opt. Express

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A time-resolved Monte Carlo technique was used to simulate the propagation of polarized light in turbid media. Calculated quantities include the reflection Mueller matrices, the transmission Mueller matrices, and the degree of polarization (DOP). The effects of the polarization state of the incident light and of the size of scatterers on the propagation of DOP were studied. Results are shown in animation sequences.

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Section: Methodsmentioning

confidence: 99%

Propagation of polarized light in turbid media: simulated animation sequences

Yao

Wang

2000

Opt. Express

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“…In simulation (Figs 4-6), the following system parameters [10][11][12][13][14] were used: the refractive index of the scattering particle -1.57, the refractive index of the medium around the particles -1.33, the diameter of the scattering particles -0.35 μm, the wavelength equal to 0.6328, absorption coefficient -1 cm 3 , scattering coefficient -90 cm 3 , the thickness of the material along the Z-axis -0.2 cm, the number of photons -1000000. …”

Section: Simulation Results For Different Values Of Birefringencementioning

confidence: 99%

Modeling of light scattering in biotissue

Ivashko¹

2014

Semicond. Phys. Quantum Electron. Optoelectron.

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Abstract. Different statistical modeling techniques of radiation propagation in epithelial tissue are considered. The two main approaches are: the modified classical Monte Carlo method for light propagation in turbid medium and the coherent inverse ray tracing method. The classical Monte Carlo method was modified to take into account polarization of propagating radiation and birefringence, which can occur due to tissues commonly found under epithelium. As a supplementary method, used in the paper was a modified version of the classical ray tracing technique, which takes into account phase of radiation during its propagation in tissue.

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“…The seven out of sixteen are independent and other can be calculated through symmetry relation. [39] By comparing the images of Fig. 3, 4, and 5, one can identify the unique features of the Mueller matrix for scattering medium.…”

Section: Resultsmentioning

confidence: 99%

Polarization Sensitive Optical Imaging and Characterization of Soybean Using Stokes-Mueller Matrix Model

Firdous¹

2011

Soybean - Genetics and Novel Techniques for Yield Enhancement

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Light backscattering polarization patterns from turbid media: theory and experiment

Cited by 179 publications

References 12 publications

Propagation of polarized light in turbid media: simulated animation sequences

Propagation of polarized light in turbid media: simulated animation sequences

Modeling of light scattering in biotissue

Polarization Sensitive Optical Imaging and Characterization of Soybean Using Stokes-Mueller Matrix Model

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