C. Heitzinger, C. Ringhofer:

"Hierarchies of transport equations for nanopores - equations derived from the Boltzmann equation and the modeling of confined structures.";

Journal of Computational Electronics (eingeladen),13(2014), 4; S. 801 - 817.

We review transport equations and their usage for the modeling and simulation of nanopores. First, the significance of nanopores and the experimental progress in this area are summarized. Then the starting point of all classical and semiclassical considerations is the Boltzmann transport equation as the most general transport equation. The derivation of the drift-diffusion equations from the Boltzmann equation is reviewed as well as the derivation of the Navier-Stokes equations. Nanopores can also be viewed as a special case of a confined structure and hence as giving rise to a multiscale problem, and therefore we review the derivation of a transport equation from the Boltzmann equation for such confined structures. Finally, the state of the art in the simulation of nanopores is summarized.

oltzmann equation, Model hierarchy, Drift-diffusion-Poisson system, Navier-Stokes equation, Confined structure, Nanopore

http://dx.doi.org/10.1007/s10825-014-0586-8

Erstellt aus der Publikationsdatenbank der Technischen Universität Wien.