Charge transport in a superlattice: a numerical study using moment methods

A semiclassical model of charge transport in a semiconductor superlattice is solved, using moments in the wavenumber direction and finite elements in the spatial direction (first order). The selection of numerical methods guarantees the conservation of current while allowing for high accuracy results. When a dc voltage bias is held between the ends of the sample, self-sustaining oscillations of the current through the superlattice are observed in a narrow range of voltages. the calculated solution displayed the expected accuracy: Spectral convergence in the number of moments used, and first-order convergence in the number of grid-cells. This result paves the way for higher-order methods (in the spatial direction) and the numerical solution of more complex models of charge transport including quantum models based on the Wigner function.