Eric Tinet

TL;DR: In this article, the authors demonstrate that the extreme optical complexity of real biological samples can be simulated by a mixture of spheres with a fractal diameter distribution, which can be used to obtain a realistic phase function with a limited number of sphere diameters.

TL;DR: In this paper, a radiative transfer equation in scattering media with spatially varying refractive index, together with its associated diffusion approximation, is derived, and an approximate result of this diffusion equation in a simple case is compared to Monte Carlo simulations.

TL;DR: This work shows that it is possible to use a fast and accurate ab initio Monte Carlo simulation when the spectral variations of the optical properties of the medium are known and the main advantage of this simulation is its applicability even for complex boundary conditions or when the sample consists of several layers.

TL;DR: The space-time Green's function for the diffusion equation in layered turbid media is derived, starting from the case of a planar interface between two random scattering media, and the results obtained are compared with Monte Carlo simulations.