A derivation of the Gurevic equation for reflectance from plane bounded scattering media

We derive in this paper a radiative transfer equation in scattering media with spatially varying refractive index, together with its associated diffusion approximation. We present an approximate result of this diffusion equation in a simple case, and this result is compared to Monte Carlo simulation

A typical integral equation, which arises when solving linear plane contact problems for semi-bounded bodies, is considered. By using a special representation of the kernel of this equation, an approximate method is developed for solving it that is effective over a wide range of variation of the dim

## Abstract The dyadic Green's function in spherically layered media is considered by assuming that source and field points can be located anywhere. After manipulations from the expression of the dyadic Green's function based on the reflections and transmissions of the scalar waves, the dyadic Gree

The coupled equatiops of molecular collision theory can be formulated in such a way as to yield the amp!itude for resommce Roman scattering of li&t by ;L diatomic molecule. Tao vxknts of tke method can be adopted, characterized by different choices for the potential matrices. \_%li molecular potenti