Impurity distribution within the diffusion layer in the cluster crystallization model

Quantitative predictions of molecular transport rates through the skin are key to the development of topically applied and transdermally delivered drugs, as well as risk assessment associated with dermal exposure. Most research to date has focused on correlations for the permeability of the stratum

## Abstract The hydrogen plasma and carbon ions flows generated at the target plates in the ITER tokamak scrape‐off layer are numerically investigated. A 2D model of hydrogen plasma and impurity ions is presented. The model is based on the electron‐ion Braginski fluid equations [1] for hydrogen pla

A multicopy protocol is proposed for modeling macromolecular hydration using diffraction experimental data (X-ray or neutron) to search for a better description of delocalized water sites than that given by point water models. The model consists of one macromolecule and several copies of each water

## Abstract The charge density and its Laplacian at the LiC and CH bond critical points and other features of the electron density distribution of the methyl lithium crystal have been compared by density functional methods for (i) the isolated (LiCH~3~)~4~ tetramer or larger clusters, (ii) for qu

## Abstract In this paper we extend the generalized likelihood uncertainty estimation (GLUE) technique to estimate spatially distributed uncertainty in models conditioned against binary pattern data contained in flood inundation maps. Untransformed binary pattern data already have been used within