This work is concerned with the semiclassical approximation of the Schro¨dinger-Poisson equation modeling ballistic transport in a 1D periodic potential by means of WKB techniques. It is derived by considering the mean-field limit of a N-body quantum problem, then K-multivalued solutions are adapted to the treatment of this weakly nonlinear system obtained after homogenization without taking into account for Paulis exclusion principle. Numerical experiments display the behaviour of self-consistent wave packets and screening effects
Multiphase semiclassical approximation of an electron in a one-dimensional crystalline lattice, III. From ab-initio models to WKB for Schrodinger-Poisson
Gosse L;
2006
Abstract
This work is concerned with the semiclassical approximation of the Schro¨dinger-Poisson equation modeling ballistic transport in a 1D periodic potential by means of WKB techniques. It is derived by considering the mean-field limit of a N-body quantum problem, then K-multivalued solutions are adapted to the treatment of this weakly nonlinear system obtained after homogenization without taking into account for Paulis exclusion principle. Numerical experiments display the behaviour of self-consistent wave packets and screening effectsFile in questo prodotto:
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