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Literature DB >> 18465979

Integral equations of the photon fluence rate and flux based on a generalized Delta-Eddington phase function.

Wenxiang Cong¹, Haiou Shen, Alexander X Cong, Ge Wang.

Abstract

We present a generalized Delta-Eddington phase function to simplify the radiative transfer equation to integral equations with respect to both photon fluence rate and flux vector. The photon fluence rate and flux can be solved from the system of integral equations. By comparing to the Monte Carlo simulation results, the solutions of the system of integral equations accurately model the photon propagation in biological tissue over a wide range of optical parameters.

Mesh：

Year: 2008 PMID： 18465979 PMCID： PMC2718535 DOI： 10.1117/1.2907168

Source DB: PubMed Journal: J Biomed Opt ISSN： 1083-3668 Impact factor: 3.170

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2. Optical diffusion in layered media.

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3. Experimental determination of photon propagation in highly absorbing and scattering media.

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5. Scattering and absorption of turbid materials determined from reflection measurements. 1: theory.

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6. Adaptive finite element based tomography for fluorescence optical imaging in tissue.

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9. MCML--Monte Carlo modeling of light transport in multi-layered tissues.

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