One-dimensional linear advection–diffusion equation: Analytical and finite element solutions

Specimens (swab samples [swab], punch biopsy tissue specimens [tissue-punch], and surgically excised tissue specimens [tissue-surgery]) obtained from 384 patients with suspected

Biological tissues can be considered either as continuous media which are described by par- tial differential equations of continuum mechanics or as an ensemble of cells described

The diffusion approximation for the linear Boltzmann equation has been known for a long time and in very different contexts, such as nuclear engineering (see chapter IX in [23]),

Here, we investigate an alternative construction which leads to, as we believe, a richer combinatorial environment in providing a link with several other processes defined on trees:

/ La version de cette publication peut être l’une des suivantes : la version prépublication de l’auteur, la version acceptée du manuscrit ou la version de l’éditeur.. For

formation in water conclude that the rate of growth of discoids (or frazil ice particles) is a function of the rate of cooling of the water and the number of

In order to approximate the exit time of a one-dimensional diffusion process, we propose an algorithm based on a random walk.. Such an al- gorithm was already introduced in both

1999 proposant l’existence d’une couche de mélange entre 1600 km - couche D” qui renfermerait l’ensemble des composants géochimiques observés dans les basaltes océaniques,