We deal with light diffusion in N-layered turbid media. The steady-state diffusion equation is
solved for N-layered turbid media having a finite or an infinitely thick N'th layer. Different …

We deal with light diffusion in mismatched N-layered turbid media having a finite or an
infinitely thick N'th layer. We focus on time-resolved light propagation in both the frequency …

Light propagation in two-layered turbid media that have an infinitely thick second layer is
investigated with time-resolved reflectance. We used a solution of the diffusion equation for …

The Diffusion Approximation for Turbid Media with A Spatially Varying Refractive Index Page
1 366/TuD3-l The Diffusion Approximation for Turbid Media with A Spatially Varying …

Light propagation in two-layered turbid media having an infinitely thick second layer is
investigated in the steady-state, frequency, and time domains. A solution of the diffusion …

We have derived the space–time Green's function for the diffusion equation in layered turbid
media, starting from the case of a planar interface between two random scattering media …

Functional near infrared spectroscopy (fNIRS) is a valuable tool for assessing oxy-and
deoxyhemoglobin concentration changes (Δ [HbO] and Δ [HbR], respectively) in the human …

Accurate and efficient forward models of photon migration in heterogeneous geometries are
important for many applications of light in medicine because many biological tissues exhibit …

The aim of this paper is to solve the diffusion equation in the case of two semi-infinite
homogeneous scattering and absorbing media separated by a flat interface when a light …

Both diffusion theory and similarity relations for light reflectance by semi-infinite turbid media
have been analyzed by comparing their computational results with Monte Carlo simulation …