Literature DB >> 22158442

Photon diffusion near the point-of-entry in anisotropically scattering turbid media.

Edward Vitkin1, Vladimir Turzhitsky, Le Qiu, Lianyu Guo, Irving Itzkan, Eugene B Hanlon, Lev T Perelman.   

Abstract

From astronomy to cell biology, the manner in which light propagates in turbid media has been of central importance for many decades. However, light propagation near the point-of-entry in turbid media has never been analytically described, until now. Here we report a straightforward and accurate method that overcomes this longstanding, unsolved problem in radiative transport. Our theory properly treats anisotropic photon scattering events and takes the specific form of the phase function into account. As a result, our method correctly predicts the spatially dependent diffuse reflectance of light near the point-of-entry for any arbitrary phase function. We demonstrate that the theory is in excellent agreement with both experimental results and Monte Carlo simulations for several commonly used phase functions.

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Year:  2011        PMID: 22158442      PMCID: PMC3370954          DOI: 10.1038/ncomms1599

Source DB:  PubMed          Journal:  Nat Commun        ISSN: 2041-1723            Impact factor:   14.919


  30 in total

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Journal:  Appl Opt       Date:  2007-04-01       Impact factor: 1.980

7.  Scaling method for fast Monte Carlo simulation of diffuse reflectance spectra from multilayered turbid media.

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8.  Analytical model of light reflectance for extraction of the optical properties in small volumes of turbid media.

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9.  Short-path statistics and the diffusion approximation.

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Authors:  R A Groenhuis; H A Ferwerda; J J Ten Bosch
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  16 in total

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4.  Sub-diffusive scattering parameter maps recovered using wide-field high-frequency structured light imaging.

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5.  Miniature spectral imaging device for wide-field quantitative functional imaging of the morphological landscape of breast tumor margins.

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Review 6.  Review of mesoscopic optical tomography for depth-resolved imaging of hemodynamic changes and neural activities.

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Review 7.  Influence of the phase function in generalized diffuse reflectance models: review of current formalisms and novel observations.

Authors:  Katherine W Calabro; Irving J Bigio
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8.  Modeling Light Scattering in Tissue as Continuous Random Media Using a Versatile Refractive Index Correlation Function.

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9.  Virtually increased acceptance angle for efficient estimation of spatially resolved reflectance in the subdiffusive regime: a Monte Carlo study.

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10.  Quantitative characterization of turbidity by radiative transfer based reflectance imaging.

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